PAGE 1 Raising European Productivity Growth Through ICT BY BEN MILLER AND ROBERT D. ATKINSON JUNE 2014 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Most commentary on Europe†s economy focuses on its precarious financial system and anemic employment recovery since the Great Recession. But Europe faces a challenge of equal or even greater magnitude that has received far less attention: lagging productivity. After a long period during which Europe was closing the productivity gap with the United states, since 1995 that gap has widened steadily and shows no signs of narrowing. If Europe is going to catch back up, it must follow the same path that drove U s. productivity growth: more ubiquitous adoption†as distinct from production†of information and communication technologies (ICTS) by all organizations (for-profit nonprofit, and government) throughout the European economy Increasing productivity is the key way that countries can raise their per capita-income income. It should not be surprising, then, that two decades of lackluster productivity growth have left many European companies uncompetitive, European incomes stagnant, and European government finances in turmoil. Only one EU-15 country, the relatively small Ireland managed productivity growth rates that exceeded those of the United states in the two periods since 1995. Given the demographic challenges and increasing international competition that Europe faces in the coming decades, it is crucial that Europe find a way to reverse these growth trends The scholarly evidence strongly suggests that increased ICT adoption, and the transformative change it can bring to organizations, is a key piece of Europe†s productivity puzzle. ICT is a general purpose technology (GPT) that has wide-ranging effects throughout an entire economy, reshaping entire systems of production and distribution Raising productivity growth rates will be crucial for Europe to prosper, and a key factor in engineering such a turnaround will be supporting the widespread adoption of information and communication technologies by organizations PAGE 2 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Around two-thirds of U s. total factor productivity growth between 1995 and 2004 was due to ICT, and ICT has contributed roughly one-third of growth since then. These gains are primarily due to the efficiencies of ICT capital, as well as associated complementarities and spillovers Compared to the United states, Europe has had far smaller productivity gains from ICT Although the contribution of ICT varies between European countries†some countries have gained roughly as much from ICT as the United states while many others, including France and the Mediterranean countries, have benefitted significantly less†overall Europe trails significantly behind. This variation in outcomes between countries along with variation at the industry and firm levels makes clear, however, that those countries industries, and firms that do invest in and use ICT reap significant benefits. This is as true for Europe as it is for the United states Europe†s lack of productivity gains from ICT initially presented a puzzle, because in many ways Europe appeared to be suited equally well to gain from new technologies. Over time however, the reasons for Europe†s lack of gains appear to have been identified. The primary proximate cause is simply the lack of investment in ICT capital: European countries have lagged significantly behind the United states in ICT investment, both as percent of total investment and as a percent of GDP, since the 1990s. And this is true not just of the ICT -producing sector itself. ICT-using sectors, primarily the service sector, that have been large drivers of growth in the United states have been untouched relatively by ICT in Europe Productivity in European private-sector services grew only one-third as fast as it did in the United states between 1995 and 2007, because the positive effects of ICT production did not spill over into use There are four primary reasons for Europe†s failure to invest in and gain from ICT. First regulation within product, labor, and land markets limits possible business models, raises the cost of ICT investment, and slows down market forces that can push firms to adopt more productive practices. For example, privacy regulations reduce the effectiveness of online advertising, the â€oeright to be forgotten†legal provision can significantly raise the cost of doing business for a wide range of data providers, and restrictions on cloud provider locations and nationality can slow access and also increase costs. Labor regulations also limit firms from using ICT to reengineer production processes The second reason for Europe†s failure to invest in ICT is European tax policy. EU consumption taxes on ICT products are high, which lowers consumer adoption and can therefore slow business adoption of consumer-facing ICT. Corporate tax policies may play a role as well as depreciation rates for ICT capital investments are generally less generous than in the United states A third reason is limited the ability of European businesses to reach more efficient economies of scale. The continued fragmentation of European markets limits the potential size of demand for European products (particularly services), which in turn makes it harder to achieve economies of scale from ICT investments. Moreover, Europe†s much higher proportion of small firms makes it hard for firms to surmount the high fixed costs of many PAGE 3 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 ICT investments. In the latter case, regulation has provided the significant bottleneck to firm growth, by favoring small firms at the expense of large ones A final important difference that explains why Europe has lagged behind the United states in adopting ICT is management styles. Research has shown that getting the full potential from ICT investments requires organizational redesign, and that U s. firms are better at employing management techniques that can facilitate such transformation Although European productivity growth has slowed significantly, as it emerges from its extended crisis there are a number of steps that Europe can take to ensure that it takes full advantage of the productivity effects of ICT going forward. First, making productivity improvement the centerpiece of economic policy is crucial. While employment presents a formidable challenge in many European countries, sacrificing productivity for jobs†that is, deliberately creating or maintaining inefficiencies†is not the answer Second, and more specifically, Europe needs to focus on raising productivity in industries where productivity growth has been slow, such as retail and professional services, by encouraging the adoption of ICT. Europe should focus primarily on ICT-using sectors because ICT-producing sectors alone are unlikely to provide significant productivity increases to the economy without the adoption of ICT in other sectors. In addition, actions to encourage the ICT-producing sector may sometimes hurt ICT-using sectors, if protective tariffs or other actions to bias the market toward local ICT producers raise ICT prices for ICT-using industries Third, Europe can actively assist in the digital transformation of industries by creating the right conditions for ICT investment and adoption. The government can do this through its own procurement and adoption of ICT products, but it can also play a proactive role in addressing network externalities that exist in many sectors Fourth, tax and trade policy provide important levers that Europe can use to promote ICT investment. By minimizing taxes on ICT investments, policymakers encourage the productivity effects of ICT use. These tax incentives are particularly important because while ICT investment provides large benefits for the broader economy, the nature of these benefits makes them hard for any single firm to capture; therefore, firms tend to underinvest in ICT. Trade policy can play a role, particularly through an expanded Information technology Agreement Fifth, European firms would be better able to take advantage of ICT if they could achieve larger economies of scale, particularly in ICT-using industries. Recent EU reports have shown that, due to national barriers to entry, the EU is far from a single market in many service industries. Additionally, the Transatlantic Trade and Investment Partnership TTIP) would better facilitate access to U s. markets Sixth, Europe should reduce preferences for small businesses. The high percentage of small firms in Europe, and in Mediterranean countries in particular, holds back productivity Certain types of small firms are important, such as â€oegazelle†firms that start small and grow PAGE 4 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 quickly, but many other types of small firms are simply inefficient organizations that have been protected from competition Finally, Europe needs to be vigilant about â€oedoing no harm. †At this stage the large benefits from innovation and the use of new technologies are driven largely by market forces, and digital regulation can significantly limit these benefits. Europe needs to find ways to address legitimate concerns around digital issues like privacy and security without damaging the ICT ecosystem This report examines EU and U s. productivity trends, discusses why higher productivity is critical for the future of Europe, examines the relationship between ICT and productivity in the United states and Europe, and lays out in further detail the seven key policy principles for attaining EU digital prosperity EU AND U s. PRODUCTIVITY TRENDS For most of the postwar period, productivity was growing faster in Europe than in the United states. Yet, after 1995 the trend reversed. Indeed, as U s. productivity growth accelerated in the late 1990s into the mid-2000s and then slowed down somewhat European productivity growth was low in the decade after the mid-1990s and has been even lower since. U s. labor productivity growth averaged 1. 6 percent per year from 1980 to 1995, rose to 2. 7 percent from 1995 through 2004, and then slowed to 1. 2 percent between 2004 and 2013.1 In contrast, productivity growth in the EU-15 has gone in the other direction, declining from an average of 2. 8 percent growth per year before 1995, to 1. 6 percent between 1995 and 2004, to an average of only 0. 8 percent since then. 2 (Figure 1) As a result, the labor productivity gap in the EU-15 relative to the United states widened by 10 percentage points between 1995 and 2013, from 89 percent to just 79 percent of U s. levels. 3 (Figure 2) The gap between the EU-28 and the United states is even greater, at 74 percent of U s. levels, because even though EU-13 productivity growth has been more robust than in the EU-15, productivity levels in the new EU countries are much lower. 4 Figure 1: EU-15 and U s. average annual labor productivity growth, 1980-20135 0. 0 %0. 5 %1. 0 %1. 5 %2. 0 %2. 5 %3. 0 %1980-1995 1995-2004 2004-2013 EU-15 U s The labor productivity gap in the EU-15 relative to the United States widened by 10 percentage points between 1995 and 2013, from 89 percent to just 79 percent of U s. levels PAGE 5 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 The diverging productivity trends also reflect important industry-level differences. U s productivity growth since 1995 has been based more broadly: roughly half of U s industries accelerated their rate of growth after the early 1990s, compared to only 20 percent of EU industries. 6 Much of the growth acceleration in the United states was driven by the service sector, especially wholesale and retail trade, banking, and other financial services. 7 Figure 2: EU-15, EU-13, and U s. labor productivity growth trends (GDP per hour worked) 8 Within the EU the performance of individual nations has varied significantly, and trends leading up to and after 2004 have been mixed. Ireland is the sole EU-15 nation to converge with U s. labor productivity over both the 1996-2004 period and the 2004-2013 period See Table 1) As a result, The irish productivity gap with the U s. economy shrank from 35 percent in 1995 to 17 percent in 2013 2004-2013 Diverging Converging 1 9 9 5 -2 0 0 4 C on ve rg in g Finland Ireland Greece Sweden United kingdom D iv er gi ng Belgium Austria Denmark Spain France Germany Italy Luxembourg Netherlands Portugal Table 1: EU-15 productivity growth relative to the United States10 $ -$10 $20 $30 $40 $50 $60 $70 $80 1 9 7 0 1 9 7 2 1 9 7 4 1 9 7 6 1 9 7 8 1 9 8 0 1 9 8 2 1 9 8 4 1 9 8 6 1 9 8 8 1 9 9 0 1 9 9 2 1 9 9 4 1 9 9 6 1 9 9 8 2 0 0 0 2 0 0 2 2 0 0 4 2 0 0 6 2 0 0 8 2 0 1 0 2 0 1 2 EU-15 EU-13 U s convergence divergence PAGE 6 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Four countries†Finland, Greece, Sweden, and the United Kingdom†continued closing the productivity gap with the United states until 2004 but then fell behind. The United Kingdom and Greece fell the hardest, with the UK averaging only 0. 4 percent growth and Greece experiencing negative productivity growth (something difficult to achieve. 11 In contrast, eight nations lost ground over both periods, including France, Germany, Italy and The netherlands. Italy was a particularly poor performer, with a decade of poor performance followed by completely flat productivity between 2004 and 2013. Two countries that diverged between 1995 and 2004 did manage to increase productivity faster than the United states after 2004: Austria and Spain. Spain, however, gained most of its productivity from a massive decline in hours worked. Figure 4 shows the convergence/divergence process in more detail for EU-15 countries Figure 3: EU-15, EU-13, EU-28, and U s. average annual labor productivity growth, 2000-201312 Most EU-13 countries have had more robust productivity growth rates. As shown in Table 2, the large majority of these countries grew faster than the United states in both periods between 1995 and 2013. Only Cyprus and Malta lost ground in both periods. However the EU-13 countries constitute less than 12 percent of EU GDP, and are only half as productive as EU-15 nations. 13 Because GDP grew relatively quickly in these countries it in fact brought overall EU-28 productivity down slightly, as Figure 3 shows. Figure 5 illustrates the magnitude of convergence and divergence within the EU-13 as well as the relative sizes of the EU-13 economies 2004-2013 Diverging Converging 1 9 9 5 -2 0 0 4 C on ve rg in g Bulgaria Czech-republic Hungary Lithuania Poland Romania Slovak-Republic D iv er gi ng Cyprus Malta Table 2: EU-13 productivity growth relative to the United States15 0. 0 %0. 5 %1. 0 %1. 5 %2. 0 %2. 5 %3. 0 %3. 5 %4. 0 %EU-15 EU-13 EU-28 U s PAGE 7 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Figure 4: EU-15 productivity percent growth rate relative to U s. area of circle is relative size of country GDP) 16 Figure 5: EU-13 productivity percent growth rate relative to U s. area of circle is relative size of country GDP) 17 WHY EUROPE NEEDS TO ACCELERATE PRODUCTIVITY GROWTH Higher productivity is the sine qua non of economic growth. 18 To see why, consider that if the EU-15 nations had maintained the productivity growth rate they enjoyed from 1980 to 1995 through to 2013, their annual GDP would be 16 percent larger today, over â 1. 6 trillion greater (up from its current â 10.6 trillion. 19 Likewise, if growth had not accelerated in the United states and had remained at the 1980-1995 rate, U s. annual GDP would be 17 percent smaller today, or $2. 8 trillion lower (down from its current AUT DNK FIN FRA DEU GRC IRL ITA LUX NLD PRT ESP SWE GBR -100 %-50 %0 %50 %100 %150 %200 %0%50%100%150%200%250 %G ro w th r el at iv e to U S gr ow th 2 0 0 4 -2 0 1 3 Growth relative to U s. growth 1995-2004 CYP MAL BGR CZE HUN LTU POL SVK 0 %50 %100 %150 %200 %250 %300 %350 %400 %0%100%200%300%400 %G ro w th r el at iv e to U S gr ow th 2 0 0 4 -2 0 1 3 Growth relative to U s. growth 1995-2004 If the U s. and EU-15 had swapped productivity growth rates from 1995 to 2013, EU GDP would be â 2. 2 trillion larger than the United States, instead of â 1. 6 trillion smaller PAGE 8 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 $16. 7 trillion. 20 Or from a different perspective, if the U s. and EU-15 had swapped productivity growth rates from 1995 to 2013, EU-15 GDP would be â 2. 2 trillion larger than the United states, instead of â 1. 6 trillion smaller. 21 Boosting productivity is critical to the EU€ s future economic health, in part because the EU€ s labor force participation rate is lower than that of the United states. A greater share of Europeans retire before the age of 65 than in the United states: 65 percent of American workers ages 55-65 are employed, while only 55 percent of European workers are. 22 Moreover, a greater share of the EU population is above age 65.23 In 2013,18. 2 percent of the population of the EU-27 nations was 65 years and older, compared to 13.8 percent in the United states. By 2050 that gap will grow even larger, to 28.7 percent in the EU and 20.2 percent in the United states. With so many Europeans consuming and not producing, the only way for Europe to enjoy rising per capita-incomes incomes (absent raising the retirement age) is to raise the rate of productivity growth To see how important productivity is to future prosperity, consider that if EU labor productivity were to grow over the next 25 years at its 1980-1995 average of 2. 3 percent per year, real output per capita would increase by roughly 75 percent, significantly more than enough to pay for the increased retiree population while at the same time ensuring that after-tax worker incomes continue to rise. However, if Europe†s current low productivity growth rate persists, real output per capita would grow just 22 percent†barely enough to cover increased retirement costs from increased retirees, and leaving no surplus for workers who would see no income growth. 24 BOX 1: PRODUCTIVITY, INNOVATION AND COMPETITIVENESS The terms productivity, innovation and competitiveness are confused often in the media and popular consciousness, but there are important distinctions between them. 25 Productivity†the most fundamental of the three concepts†is the ratio of output to input, where output is valued using the amount of goods or services and input is typically an hour of labor, a single worker, or a combination of workers and physical capital. Using hours of work or the amount of workers as the denominator yields labor productivity (the measure used in this report unless otherwise specified), while using the combination of workers, physical capital and other inputs as the denominator yields total factor productivity (TFP; TFP is also called multi-factor productivity, or MFP, when using only workers and physical capital Productivity is the main determinant of national income per person, because over the long term a nation can consume only what it produces or is able to trade for Nations can increase their productivity in two ways. If most industries, even low productivity ones, increase productivity, this is the â€oegrowth effect. †The â€oeshift effect†occurs when an economy shifts resources from less productive industries e g.,, call centers) to more productive ones (e g.,, software. The lion†s share of productivity growth for almost all nations, especially larger ones, however, comes not from shifting the sectoral mix to higher-productivity industries, but from the growth effect: industries, even low-productivity ones, boosting their productivity. 26 With so many Europeans consuming and not producing, the only way for Europe to enjoy rising per capita-incomes incomes absent raising the retirement age) is to raise the rate of productivity growth PAGE 9 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 On the level of individual industries, productivity gains can occur in three different ways: through all firms increasing their productivity by innovating or adopting new technologies; through less productive firms dying and being replaced by new, more productive firms; or by more productive firms gaining market share from less productive ones. In the past 20 years, firm-level research has shown that there are large, persistent productivity gaps between firms in the same industry, which means that there are large productivity gains to be made from moving toward best practice production techniques, such as using ICT. 27 In addition, ICT can boost productivity by making older, less productive business models obsolete in favor of newer ones (e g.,, online book selling replacing â€oebricks and mortar†bookstores Innovation means developing a new or significantly improved product (a physical good or service), production process, a new marketing method, or a new organizational method in business practices, workplace organization, or external relations. 28 The distinction between â€oeproduct†and â€oeprocess†innovation is important because product innovation affects the product market (output, or the numerator in the productivity ratio) while process innovation affects the input side of productivity Competitiveness is complicated a more concept: it relates only to the economic health of a region†s or nation†s traded sectors whose output can be purchased by consumers outside the region or nation. But how do we define health? The true definition of competitiveness is the ability of a region to export more in value -added terms than it imports. This calculation includes accounting for â€oeterms of trade†to reflect all government â€oediscounts, †including an artificially low currency, suppressed wages in export sectors, artificially low taxes on traded sector firms, and direct subsidies to exports. It also controls for both tariff and non-tariff barriers to imports Under this definition, a nation may run a large trade surplus (one component of competitiveness), but if it does so by providing large â€oediscounts†to its exporters or by restricting imports it would not be truly competitive, for such policies would reduce its terms of trade by requiring its residents to give up some of their income to foreign consumers and/or pay higher prices for foreign goods and services. 29 Policymakers, not just in Europe but around the world, tend to prioritize the three factors in the following order: competitiveness, innovation, and productivity. But for most nations and regions, especially large ones like Europe, productivity is the most important driver of economic well-being. The majority of jobs in Europe are in non-traded sectors where productivity gains go directly to European workers and consumers. Moreover, productivity gains in traded sectors help EU consumers and boost competitiveness ICT AND PRODUCTIVITY GROWTH Productivity increases stem from a variety of factors, but the principal one is use of more and better â€oetools†by producers: in other words, the use of more and better machinery equipment, and software. Indeed, new growth economics accounting suggests that the lion†s share of productivity stems from the use of more and better â€oetools. †30 PAGE 10 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 And in today†s knowledge-based economy, the tools that are most ubiquitous and most effective in raising productivity are based ICT. These digital tools are more than simply the Internet, although that itself drives growth. 31 They include hardware, software applications and telecommunications networks, and increasingly tools that incorporate all three components in them, such as computer-aided manufacturing systems and self-service kiosks These tools and can be used in the internal operations of organizations (business government and nonprofit; transactions between organizations; and transactions between individuals, acting both as consumers and citizens, and organizations. Indeed, ICT has enabled the creation of a host of tools to create, manipulate, organize, transmit, store and act on information in digital form in new ways and through new organizational forms. And its impact is pervasive as it is being used in virtually every sector, from farming to manufacturing to services to government. In the United states, 48 percent of non -structures capital investment is in ICT, and the number would be even higher if all IT -enabled machines were classified as ICT. 32 ICT is a key driver of productivity. This is because ICT is what economists call a â€oegeneral purpose technology†(GPT. GPTS have appeared historically at a rate of once every half century, and they represent systems of fundamentally new technologies that change virtually everything, including: what economies produce; how they produce it; how production is organized and managed; the location of productive activity; the skills required for productive activity; the infrastructure needed to enable and support it; and the laws and regulations needed to maintain or even allow it. 33 GPTS share a variety of similar characteristics. They typically start in relatively crude form for a single purpose or very few purposes; they increase in sophistication as they diffuse throughout the economy; they engender extensive spillovers in the forms of externalities and technological complementarities; and their evolution and diffusion span decades. 34 Moreover, GPTS undergo rapid price declines and performance improvements; become pervasive and an integral part of most industries, products, and functions; and enable downstream innovations in products, processes, business models, and business organization. By any of these measures, ICT ranks well against the most transformative technological breakthroughs in human history. 35 This is why ICT is such an important enabler of better tools to drive productivity. The evidence that ICT led to the U s. productivity rebound in the 1990s, and has remained a key driver of growth since then, is established well. In a conclusive review of over 50 scholarly studies on ICT and productivity published between 1987 and 2002, Dedrick Gurbaxani, and Kraemer found that â€oethe productivity paradox as first formulated has been effectively refuted. At both the firm and the country level, greater investment in ICT is associated with greater productivity growth. †36 In fact, nearly all scholarly studies since the mid-1990s through to 2014 have found positive and significant effects of ICT on productivity. 37 The beneficial effects of ICT on productivity have been found across different levels and sectors of economies, from firms to industries to entire economies, and in both goods-and services-producing industries. 38 Firm level studies have shown also that PAGE 11 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 â€oefirms with high levels of ICT are more likely to grow (in terms of employment) and less likely to go out of business. †39 The United states was the first country to show a large impact from ICT. Between 1995 and 2002, ICT was responsible for two-thirds of total factor productivity growth in the United states, and virtually all of the growth in labor productivity. 40 While productivity growth slowed in the mid-2000s, ICT continued to be a primary source of growth: IT -using and IT-producing industries were the only source of value-added growth between 2005 and 2010, as low-IT-using industries lost productivity over that time. 41 Overall recent studies have found that approximately one-third of U s. growth over that period is attributable to the adoption of ICT by organizations. 42 Why has the use of ICT been the key driver of growth? A principal reason is that it has a greater impact on productivity and growth than non-ICT capital. Studies in the early 2000s found that investment in ICT capital increased productivity by three to eight times more than investment in non-ICT capital. 43 Likewise, Wilson finds that of all types of capital, only computers, communications equipment, and software are associated positively with multi-factor productivity. 44 Hitt and Tambe find that the spillovers from IT nearly double the impact of IT investments. 45 Rincon, Vecchi, and Venturini confirm the GPT nature of ICTS through an exhaustive industry-level study of both productivity benefits and spillovers. 46 These studies have been corroborated with research on the benefits of ICT in a richer variety of contexts, including developing countries and public sector organizations. 47 There are at least three possible reasons why ICT has stronger effects on productivity than other capital. First, in economies where ICT capital equipment innovations are new, they are able to pick off the â€oelow hanging fruit†of relatively easy to improve efficiencies Second, ICT doesn†t just automate tasks, it also has widespread complementary effects including allowing companies to fundamentally reengineer processes. Third, IT has what economists call â€oenetwork externalities, †which are the â€oespillovers†from adding additional users to a network. Simply put, increasing the user size of a network makes all current users better off. When these three factors are combined, ICT can have a big impact While it†s unclear as to the future of ICT development and its impact on productivity, it does appear that if productivity growth is to accelerate in the future it will almost certainly be due to ICT-enabled developments now underway, including cloud computing â€oeinternet of Things, †data analytics and big data, IT-powered robotics, intelligent agents mobile commerce, improved self-serve kiosks, 3d printing, location awareness, and machine learning THE IMPACT OF ICT ON EUROPEAN PRODUCTIVITY A principal reason the EU has had lower productivity growth than the United states since the emergence of the Internet age is that it has had lower productivity gains from ICT OECD data show that from 1985 to 2010, ICT capital contributed 0. 53 percentage points to the average annual GDP growth rate in the United states and 0. 56 percentage points in the United kingdom, but only 0. 32 percentage points in France, 0. 28 in Italy, and 0. 27 in If productivity growth is to accelerate in the future, it will almost certainly be due to ICT -enabled developments now under way PAGE 12 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Germany. (Figure 6) Similarly, a 2011 report from Coe-Rexecode finds that while ICT contributed 37 percent of U s. GDP growth between 1995 and 2008, it contributed 32 percent in Germany and just 26 percent and 27 percent, respectively, in France and the United kingdom. 48 Figure 6: ICT contribution to average annual GDP growth rate, 1985-201049 Narrowing the focus to productivity growth, van Welsum, Overmeer, and van Ark found that ICT contributed 1. 3 percentage points to the average annual growth rates of labor productivity in the United states between 1995 and 2007, but only 0. 7 percentage points in the EU-15 (64 percent and 57 percent of total labor productivity growth, respectively. 50 Figure 7 shows contributions in both the total economy and private sectors for the EU-15 and the United states. An OECD report finds that the ICT contribution to value-added total factor productivity (TFP) growth from 1996 to 2007 was significantly higher in the United states than in EU countries. 51 Disaggregated statistics, however, show that some EU countries have benefitted from ICT at a level comparable to the United states Germany and the United kingdom gained around 66 percent of their TFP from ICT, the United states 60 percent, but France and The netherlands under 50 percent. 52 0. 0 0. 1 0. 2 0. 3 0. 4 0. 5 0. 6 PAGE 13 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Figure 7: Components of labor productivity growth (average percentage points per annum), 1995 -200753 Even though the impacts of ICT EU-wide have not been as great as in the United states we can still clearly see ICT benefits in Europe at the firm and industry levels. In the UK several industry-level studies have found that ICT plays an important role in productivity growth. Corry et al. find that the contribution from the â€oeknowledge economy, †which includes labor composition, ICT capital, and TFP, increased in the UK from 2 percentage points to 2. 3 percentage points of overall growth after 1997.54 Goodridge et al. find sectors that contributed most to value-added growth in the UK between 2000 and 2009 invested most heavily in ICT capital. 55 In Finland, Mairesse, Rouvinen, and Ylã¤-Anttila find that ICT contributed significantly to non-ICT-sector productivity growth between 1994 and 2007.56 On a firm level, the benefits of Internet and computer use for productivity are also well established. A large number of studies in the late 1990s and early 2000s confirmed at a micro level that ICT has a positive effect on firm productivity in both the United states and Europe. 57 Varian et al. for example, find that firms in the UK, France, and Germany increased revenues 8. 6 percent and decreased costs 2. 6 percent through the use of Internet business systems; Johnston, Wade and Mcclean likewise find that e-business uptake increased revenues in small-and medium-sized enterprises by 9 percent. 58 In a large survey of German firms, Bertschek, Fryges, and Kaiser find that firms that engaged in business-to -business e-commerce significantly increased both multifactor and labor productivity. 59 But studies have continued to show the benefits of ICT after the initial years of the Internet boom as well. In a study of 1, 955 European firms, Nurmilaakso finds that Internet access and standardized data exchange with trading partners contributed to significant increases in labor productivity. 60 Similarly, Koellinger finds that firms in the EU that implemented eight e-business practices were more than twice as likely to report that they had increased both productivity and expanded employment over the past year. 61 Castiglione measures the impact of ICT investments in Italian manufacturing firms and finds that they had a positive and significant effect on firms†efficiency, corroborating earlier work by Milana and Zeli. 62 Iammarino and Jona-Lasinio find that Italian regions with significant ICT production have greater labor productivity and are the primary drivers 0 0. 5 1 1. 5 2 2. 5 3 EU-15 total economy EU-15 market sector USA total economy USA market sector Other (residual TFP (ICT-use TFP (ICT-production IT investment/hour PAGE 14 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 of national growth. 63 Also in Italian firms, Hall, Lotti, and Mairesse find that ICT investment is associated strongly with productivity. 64 In Spain, Romero and Rodrã guez find that e-buying had significant impacts on firm performance over the 2000-2005 period. 65 Ruiz-Mercader, Meroã o-Cerdan, and Sabater-Sánchez find that e-business solutions increased organizational performance by expanding industry learning and organizational efficiency. 66 In France, Chevalier, Lecat, and Oulton find that since 1992, firms near the technological frontier have increased productivity relative to other firms, attributing the speedup to ICT adoption and globalization. 67 Another study found that 29 percent of Danish small manufacturers surveyed indicated that their competitive position was strengthened a great deal by doing business online. 68 Studies examining Swedish firms found that access to broadband Internet is associated with increases in productivity of 3. 6 percent for manufacturing and services firms and 62 percent for ICT firms. 69 Belgian firms that used technology from foreign sources were found to have significantly higher productivity growth. 70 These studies confirm that ICT investment goes hand in hand with firm productivity growth, and thus European productivity growth would have been even slower without investment in ICT Moreover, ICT doesn†t just increase firm productivity, it enables firms to be more competitive and innovative. For example, van Leeuwen and van der Wiel find that Dutch firms that invested more in ICT not only enjoyed faster productivity growth but also produced more innovations. 71 According to a 2006 EU report, 32 percent of EU companies reported innovations, with ICT enabling half of the product innovations and 75 percent of the process innovations. 72 Spiezia examines a range of OECD countries including the UK, Italy, Spain, and The netherlands, and finds that â€oeicts act as an enabler of innovation, particularly for product and marketing innovation, in both manufacturing and services. †73 Garcia-Muniz and Vicente look at the EU as a whole and find that ICT helps technologies spread and businesses innovate because it facilitates business transactions and does not depend on other sectors to be successful. 74 Polder et al. looking at the Netherlands, investigate the sources of innovation in different sectors and find that ICT investment, broadband use, and e-commerce are all very important for innovation in the service sector, and that ICT investment and broadband use are less but still important drivers of innovation in manufacturing as well. 75 ICT doesn†t just increase firm productivity, it enables firms to be more competitive and innovative PAGE 15 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 WHY HAS GAINED EUROPE NOT AS MUCH FROM ICT If ICT has such large productivity benefits at the firm, industry, and economy-wide levels why has failed Europe to gain from ICT the way the United states has? This is a particularly important question because some European nations do lead in some ICT areas like intelligent transportation systems, e-banking, digital authentication, and e-health. 80 There are a number of reasons why Europe has failed to take full advantage of ICT Box 2: Is Productivity Growth Over Recently, several prominent economists have argued that productivity growth in the United states is slowing down significantly for the foreseeable future. Robert Gordon at Northwestern University and Tyler Cowen at George Mason University put forth a number of arguments to support their claims, including smaller gains from such factors as education, fossil fuels, demographics, and other â€oelow -hanging fruit. †1 Many of these concerns, such as demographic shifts and slowing technological breakthroughs, apply equally well to Europe However, this recent techno-pessimism errs in several ways. First and most importantly, it adopts a fundamentally fatalistic stance that misunderstands the interplay between public policy and innovation. While innovation is a necessarily uncertain process, economics does in fact have a good deal to say about how it develops and how policies can play a role in creating it. Cowen and Gordon ascribe too much agency to broad historical forces and â€oefundamental†laws of economics, and not enough agency to policy Second, techno-pessimist accounts frequently conflate economic growth with productivity. The two are related but distinct, because growth can occur simply by adding more workers. While demographic shifts are important for the absolute size of the economy, they do not affect productivity or income per capita Productivity is what matters for competitiveness and for per capita-income income, so it is misleading to conflate a slowdown in GDP growth with a productivity slowdown. 1 Moreover, the techno-pessimists stand in stark contrast to other economists arguing that technological change will soon be progressing too quickly Brynjolfsson and Mcafee†s Second Machine Age both argue that technological progress is becoming problematic for exactly the other reason†because it is speeding up too quickly and purportedly leading to unemployment. 1 The main problems with this view are that productivity is clearly not speeding up, as shown above, and that productivity growth has been shown clearly to have no negative impact on either unemployment or workforce growth. 1 Reality, as usual, will probably sit somewhere comfortably between these two extreme views. It is unlikely that productivity growth will explode, but neither is it inevitable that growth will come to a halt. Healthy productivity growth is attainable with the right pro-productivity policies PAGE 16 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Amount of ICT Investment Firms in Europe do not invest as much in ICT as firms in the United states. Higher levels of ICT investment drive higher productivity growth: in a recent survey of both micro and macro literature, Cardona et al. note that firm-level analyses provide â€oesolid evidence that over the last two decades an increase of ICT investment by 10%translated into higher output growth of 0. 5†0. 6%†regardless of the country studied. 82 Businesses in the United States have maintained a healthy lead in both ICT investment as a share of overall investment and ICT investment as a share of GDP. 83 (Figures 8 and 9) And that lead has grown, not shrunk, since 2000: the EU invested about 80 percent as much as the United States in ICT as a share of total capital investment in 2000, but by 2011 that number had declined to 57 percent. 84 This is true even though European countries invested more overall in fixed capital than the United states. Figure 9) In other words, while Europe invests more overall, U s. firms invest more in high-impact ICT Figure 8: Business and consumer spending on ICT as a share of 2010 GDP85 The numbers over time and across individual countries confirm the U s. lead in ICT investment. ICT investment both as a percentage of GDP and as a percentage of total nonresidential investment peaked in the late 1990s for both the United states and the European union. However, the United states has maintained much higher levels of investment in ICT as a share of fixed capital investment since the 1990s.86 (Figure 10 Moreover, U s. ICT investment is significantly higher as a percentage of overall investment than in any other large European nation other than the UK. 87 Continuously higher levels of ICT investment by the United states mean that it has built up a larger stock of ICT capital goods, even though these goods normally depreciate faster than other capital goods From 1991 to 2007, ICT capital stock†the total accumulated ICT investment†tripled in Germany, Italy, and Spain, reaching 6 percent of total capital stock. In the United states and the UK), however, it quintupled to 14 percent. 88 0 %1 %2 %3 %4 %5 %6 %United states EU Consumer Business â€oeover the last two decades an increase of ICT investment by 10 percent translated into higher output growth of 0. 5†0. 6 percent. †PAGE 17 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Figure 9: Gross fixed capital formation (investments) by type as a percentage of GDP (EUR-W is weighted average of major European countries) 89 Figure 10: Shares of ICT investment as percent of nonresidential investment93 Economists see U s. ICT investment as a key reason the United states has maintained its place at the â€oetechnological frontier†as one of the most productive countries. 94 The effectiveness of greater ICT capital investment in the United states suggests that additional ICT investment in Europe is likely to have significant benefits as well. Strauss and Samkharadze argue that â€oeus productivity has outgrown the EU-15 mainly because of stronger ICT capital deepening and faster progress in productive efficiency. †95 0 %5 %10 %15 %20 %25 %EUR-W U s. EUR-W U s 2000 2011 Other investment as%GDP ICT assets as %GDP 0 %5 %10 %15 %20 %25 %30 %35 %1 9 9 0 1 9 9 1 1 9 9 2 1 9 9 3 1 9 9 4 1 9 9 5 1 9 9 6 1 9 9 7 1 9 9 8 1 9 9 9 2 0 0 0 2 0 0 1 2 0 0 2 2 0 0 3 2 0 0 4 2 0 0 5 2 0 0 6 2 0 0 7 2 0 0 8 2 0 0 9 2 0 1 0 United states Weighted average of major EU countries From 1991 to 2007 ICT capital stock†the total accumulated ICT investment†tripled in Germany, Italy, and Spain, but quintupled in the United states PAGE 18 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Figure 11: ICT assets as percentage gross fixed capital formation, 201196 ICT investment shows up in survey data on ICT use as well. The 2013 and 2014 World Economic Forum†s Networked Readiness Index survey shows that the EU-15 and EU-13 trail behind the United states in ICT adoption, business-to-business Internet use, business -to-consumer Internet use, and staff ICT training. 97 (See Figure 12 Figure 12: Average of 4 indicators of ICT use (1-7, where is 7 highest use; averaged over 2013 and 2014) 98 Limited Impacts in the Services Sector Drilling down into the lack of investment, another reason Europe has experienced not the same macroeconomic impacts from ICT as the United states is that it has not been able to use ICT to drive service sector productivity as well as the United states. U s. service sector productivity has grown much faster than service sector productivity in most major EU countries. (Figure 13) Timmer, O†Mahony, and van Ark estimate that from 1995 to 2007 0 %5 %10 %15 %20 %25 %S lo va k R ep ub lic It al y G er m an y Ir el an d C ze ch R ep ub lic Fi nl an d G re ec e Lu xe m bo ur g S lo ve ni a C an ad a S pa in E ur op ea n A ve ra ge P or tu ga l Fr an ce B el gi um N et he rl an ds S w it ze rl an d S w ed en D en m ar k U ni te d K in gd om U ni te d S ta te s 4. 0 4. 2 4. 4 4. 6 4. 8 5. 0 5. 2 5. 4 5. 6 U s. EU-15 EU-13 PAGE 19 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 EU private service sector productivity grew only one-third as fast as in the United states primarily due to greater deployment and usage of ICT in the United states in service sectors. 99 Uppenberg finds that because services are such a large part of the European (and U s.)economy, â€oesubstantially higher productivity growth in manufacturing would not be sufficient†to remedy the productivity slowdown. 100 Mas argues that it is â€oethe services and not the manufacturing industries that make the difference between the US and the EU€ while in the US TFP improvements in the ICT producers sectors spilled over to the other sectors of the economy (especially the ICT intensive users), in the EU-15 its positive effects were restricted to only the ICT producers sectors. †101 Figure 13: Total labor productivity growth in services from 1999-2009102 Regulation and ICT Adoption Simply knowing that firms in Europe have invested less in ICT than firms in the United States does not tell us why they have done so. Several interrelated reasons appear to be at play, one of which is the level of regulation in product markets, labor markets, and land markets. 103 Van Reenen et al. find that both product market and labor market regulations â€oemay be significant determinants of cross-country differences in the impact of ICT, †because â€oehigh levels of labour and product market regulation are associated with a lower productivity impact of ICT. †104 Overall, Van Reenen et al. find that product market regulations act as a productivity drag on ICT, lowering its impact by 16 percent for each dollar invested. 105 The fact that companies in Europe can get less â€oebang for their buck†from their ICT investment means not only that productivity is lower, but also that fewer projects meet investment hurdles and firms in Europe end up investing less than firms in the United states One product market regulation that appears to have a negative effect on ICT-enabled productivity is privacy regulation. Goldfarb and Tucker show that EU privacy regulation reduced the effectiveness of online advertising, reducing the revenue for websites that rely on ad-based business models. 106 This appears to be one reason the EU lags behind the United states in Internet companies. Campbell et al. examine the impact of privacy regulations in specific markets, finding that regulation may keep out new firms, some of which may become more productive than incumbents. 107 0 %5 %10 %15 %20 %25 %30 %35 %40 %45 %50 %One product market regulation that appears to have a negative effect on ICT-enabled productivity is privacy regulation PAGE 20 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Privacy regulations not only limit business models, they also increase the cost of doing business for firms, presumably decreasing their ability to invest. For example, the recent EU decision on the â€oeright to be forgotten, †which requires search engines to delete certain links based on individual requests, is likely to raise compliance costs significantly. A report by the European Centre for International Political economy for the U s. Chamber of Commerce estimates that a right to be forgotten, if implemented, could decrease EU GDP by-1. 5 percent to-3. 9 percent by reducing the productivity and competitiveness of EU ICT companies. 108 Christensen et al. show that these regulations are particularly costly for small-and medium-sized enterprises, costing them between â 3, 000 and â 7, 200 per year, or 16 percent to 40 percent of IT budgets. 109 Other examples of costly regulations that limit the effectiveness of IT investment include the new law requiring websites to obtain â€oeexplicit consent†before placing web cookies, and the requirement that companies provide external human involvement as needed in any automatic, IT-enabled process that produces significant or legal effects. 110 The former policy is both overly ambiguous and burdensome particularly to smaller websites, while the latter is likely to delay progress in the emerging area of big data analytics Regulations don†t just increase costs†poorly-designed or unresponsive regulations can prevent or delay the adoption of new technologies, such as 4G LTE mobile broadband networks. The European union has been hampered by regulatory mandates that specified the technologies that carriers could use in their allotted spectrum, and LTE was not initially allowed by these mandates; a similar problem occurred with the European 3g rollout. Moreover, the United states was the first nation to take advantage of the â€oedigital dividend†from the DIGITAL TV transition. In contrast, the process of allocating new spectrum for LTE and modifying regulations to permit LTE use on previous allocations is still underway in Europe. As a result, consumers and businesses in Europe can rely on a less robust mobile communications infrastructure Labor market regulations have a large negative impact on ICT investment and the benefits firms can obtain from it. Van Reenen et al. find that labor market regulations reduce productivity gains from ICT by approximately 45 percent. 111 The authors attribute one -third of this effect to how labor market regulations can slow down the entry and exit of firms: stricter regulations can protect and preserve less productive, less technologically advanced firms. 112 Labor market regulations also reduce the flexibility of managers preventing them from reorganizing production in more efficient ways. 113 Why BUY IT to reorganize production and cut costs when regulations make it difficult to reduce the workforce? Antonelli similarly finds that rigid labor markets make firms less likely to adopt new technologies. 114 They also appear to reduce productivity gains through outsourcing and offshoring†business practices heavily reliant on ICTS. Europe was slower to offshore and outsource production in the 2000s, and while it caught up to the United states in total outsourcing spending after the Great Recession, U s. firms remain far ahead of European firms in terms of outsourcing and offshoring core business functions. 115 Again, such rules reduce the return on investment from ICT purchases, leading firms in Europe to invest less than firms in the United states Given that so much of the ICT system is moving to the cloud, requiring a â€oeeuropean Cloud†is likely to have a significant negative impact on European productivity PAGE 21 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Land use regulation is a third area of regulation that leads to reduced ICT benefits particularly in the retail sector. A number of studies in the United kingdom, as well as in mainland Europe, have found that regulations regarding the use of land can prevent retail stores from attaining economies of scale, and ICT has been the main enabler of increasing retail scale. 116 Cheshire et al. for example, find that rules preventing larger retail stores in the UK may have held back productivity in that sector by as much as 25 percent. 117 Tariffs and Taxes Companies make decisions about capital investment on the basis of return on investment If the return is low due to factors like product market regulations, labor market regulations or land use regulations, the number of projects that will exceed the firm†s hurdle rate will be smaller. But it†s also true that policies that raise prices for capital goods will lead to fewer projects exceeding their hurdle rates. Conversely, policies that reduce the after-tax cost of capital goods will increase the number of investable projects. Regulation can increase prices†as rules regarding a â€oeeuropean Cloud†will do. But taxes and tariffs also raise the cost of ICT products Figure 14: Taxes on general consumption in the United states and European union, 2009121 Because the EU signed onto the 1997 Information technology Agreement (ITA), an international agreement to reduce ICT barriers, its tariffs on ICT imports are low. 122 However, in addition to tariffs, high taxes add costs for businesses and consumers. Europe has significantly higher consumption taxes than the United states. Rates for the Value Added Tax are set to be harmonized across Europe at around 20 percent, although they appear to be a bit lower than that in practice, averaging between 10 percent and 16 percent in different countries for a basket of goods. 123 This is compared to an average of 5. 8 percent for the same basket of goods in the United states. Consumption taxes in Europe make up a much larger proportion of both overall taxation and GDP, despite Europe†s higher tax 0 5 10 15 20 25 30 H un ga ry D en m ar k S w ed en E st on ia Fi nl an d S lo ve ni a A us tr ia G er m an y P ol an d C ze ch R ep ub lic Fr an ce P or tu ga l B el gi um N et he rl an ds S lo va k R ep ub lic G re ec e Lu xe m bo ur g Ir el an d U ni te d K in gd om It al y S pa in U ni te d S ta te s %GDP%total taxation PAGE 22 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 overall. (Figure 14) These taxes have a clear impact on prices: a recent cross-country study found that for Apple†s ipad, on average 14 percent of the purchase price went to taxes, but in European countries the percent going to taxes ranged between 16 percent and 19 percent. 124 These taxes are justified sometimes as â€oeluxury†taxes, but in fact most ICT goods are not luxury goods, but rather â€oepro-sumer†capital goods that spur productivity Higher taxes on ICT products do not raise ICT costs for businesses in Europe, since under the EU VAT system businesses can recover tax expenses for business inputs, including investment. However, higher taxes on ICT consumption do discourage ICT use by consumers, making it more difficult for businesses to use ICT to adopt customer-facing productivity increases Europe†s high consumption taxes may only affect business investment decisions indirectly but corporate tax policies play a more direct role. Recently several European countries have proposed data mining and data collection taxes, directed specifically at large internet companies such as Google and Facebook. 125 Higher taxes on ICT-producing companies may raise the price of ICT goods and services for everyone else. Moreover, the existing proposals are designed poorly and could easily penalize or deter startups: The french tax on data collection would tax companies based on the number of users they collect data on apparently with no regard to the actual market value of the data Another important channel through which tax policies influence investment is depreciation rates†the rates at which corporations can write off capital investments for tax purposes. 126 Accelerated depreciation decreases tax revenues in the United states by 6. 6 percent, and thus comprises a substantial incentive to invest in new equipment, including ICT equipment. 127 However, depreciation rates in different countries vary widely between types of ICT. Compared to most European countries, for example, the United states allows faster depreciation for ICT assets like computing equipment (1-2 years), but its rate for communication equipment is much closer to average (1-4 years depending on depreciation method). ) 128 A number of fast-growing EU-13 countries like Lithuania and Slovenia have increased the speed at which companies can depreciate ICT investments. 129 Over time these rate differences could have significant effects on ICT investment and thus accumulated ICT capital stock. Unfortunately this is not a well-developed body of research and further work is necessary to determine whether ICT capital depreciation rates have a significant effect on investment Scale Economies Two additional reasons European firms lag in their investment in ICT capital are related to scale. The first scale problem is with firm size. The United states has a higher percentage of workers employed by large firms than all European countries. Figure 15) In particular Italy, Greece, and other Mediterranean countries stand out as having an unusually high proportion of their employment in small firms Firm size matters for the EU because larger firms are more likely to invest in ICT. This is because larger firms face fewer resource constraints and can more easily enjoy scale benefits of IT. For example, it can cost the same to develop an ERP (enterprise resource planning PAGE 23 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 system for a mid-size firm as a large one, but the large one can amortize those costs over a larger revenue base. In short, as Hitt, Wu, and Zhou have shown in their paper examining IT adoption by firms, ICT investments have high returns to scale because of their low marginal costs but higher fixed costs. 130 To be sure, the increased provision of software through cloud-based services may change that somewhat, but scale benefits are not likely to disappear, if for no other reason than most enterprise IT needs some customization which raises fixed costs Figure 15: Percentage of total workforce employed at enterprises by size, 2010131 Regulation that favors small firms has been a significant bottleneck for ICT investment in many European nations. 133 The firm-size problem ties into the regulatory issues above particularly because labor market regulation can limit the number of employees a firm chooses to have. 134 France, for example, has a number of laws that apply only to businesses with 50 or more employees, and this provides an incentive for firms to stay under the 50 -worker threshold. 135 Land use regulations, as also described above, can also constrain both firm size, by preventing the entry of more efficient franchise-style firms, and establishment size, by preventing larger service industry locations. In general, European policies favoring small firms and exempting them from the regulatory and tax burdens faced by larger firms only serves to keep European ICT adoption lower and resultant productivity lower than otherwise would be the case 0 20 40 60 80 100 United states United kingdom Switzerland Luxembourg Germany Denmark Romania Lithuania Finland Austria Sweden Latvia Bulgaria Czech republic Slovenia Belgium Poland Hungary Slovak Republic Spain Portugal Italy Greece (2007 1-9 10-19 20-49 50-249 250 +European policies favoring small firms and exempting them from the regulatory and tax burdens faced by larger firms only serves to keep European ICT adoption lower and resultant productivity lower than otherwise would be the case PAGE 24 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Europe†s second challenge regarding scale is the issue of market size. While the EU economy is larger than that of the United states, in practice it is integrated much less Therefore, the market for a firm†s products or services is limited more, often to only the nation it is based in. 136 Because the United states effectively has a much larger market there are larger potential returns to ICT investments for U s. firms, again because of the high fixed costs relative to marginal costs in many ICT capital investments. Moreover larger markets mean more competition, which in turn spurs firms to invest more in order to innovate and cut costs. This is why Van Reenen et al. suggest promoting product market competition, more integrated European markets, and openness to trade as potential ways to increase ICT-based productivity. 137 Management Differences While regulations and taxes affect the return on ICT investments, in any given environment firms still have investment choices. These choices are in part dependent on management practices which vary not only between firms but between nations Management practices are another reason that European firms appear to have gained less from ICT than firms in the United states: EU firms have been less willing or able to reengineer business processes around the use of ICT. Such restructuring is a crucial step in getting full productivity benefits from ICT. For example, laser scanners not only boost checkout clerk productivity, they also allow retailers to reengineer their entire supply chain Bresnahan, Brynjolfsson, and Hitt find that firms that embrace â€oenew economy†management practices (e g.,, decentralized decision-making) and at the same time invest significantly in ICT, outperform other firms. 138 As they note, â€oefirms do not simply plug in computers or telecommunications equipment and achieve service quality or efficiency gains. Instead they go through a process of organizational redesign and make substantial changes to their service or output mix. †139 Polling of business executives around the world confirms this analysis, as 97 percent believe technology alone would not raise productivity in their firm to the highest level achievable unless it was accompanied by organizational changes. 140 In a similar vein, Abramovsky and Griffith find that ICT facilitates outsourcing, and a firm†s outsourcing potential depends largely on the ability of a firm to reorganize itself around its core competencies. 141 These organizational effects of ICT end up facilitating more significant productivity gains than firms would achieve simply by optimizing individual processes This theory has been supported strongly by recent evidence by Bloom, Sadun, and Van Reenen, who examine differences in management techniques between U s. and European firms both operating in Europe. 142 U s. firms are considerably more likely to employ management practices that enable organizational changes that harness the benefits of ICT and the authors attribute nearly half of the U s.-EU productivity differential over 1995 -2005 to this â€oeorganizational capital. †Furthermore, they find that â€oeit-using intensive†industries such as retail and wholesale had the greatest productivity benefits from better management practices. Previous work by Bloom and Van Reenen also found that American management quality was better overall than European management across a range of management quality indicators. 143 These indicators of management quality show up in sourcing decisions as well: outsourcing by U s. firms is more likely to be driven by transformative strategies like reengineering processes, gaining access to new technology, and PAGE 25 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 developing new analytical capabilities, whereas in Europe the primary concern is straightforward cost cutting. 144 Such differences are obviously harder to influence through public policy than factors like regulation and taxes, but governments can do some things such as improving labor regulations or corporate governance laws What About the ICT-Producing Sector Since the late 1990s when the U s. lead in ICT became apparent, Europe has tried to play catch up, but not so much by figuring out how to boost adoption as by trying to build a stronger ICT-producing sector. Despite these efforts, it has succeed yet to on a Europe -wide scale. In 2009 the United states got nearly 10 percent of business value added from the ICT-producing sector, while Europe got only 5. 6 percent. 145 While a number of European countries (such as Ireland, Sweden, and the UK) have larger ICT-producing sectors in terms of value added than the United states, other major European countries including France and Germany, have smaller ICT sectors, and on average Europe gains less of its GDP from its production of ICT. 146 But as noted above, the large gains are to be realized not so much from production of ICT€ which will be much more difficult for Europe to achieve in the presence of strong U s. and Asian competitors†as in its adoption. Despite this fact, the European Commission and many individual European governments have placed more attention on building IT companies than on spurring IT use. 147 See for example this statement adopted in 2012: â€oethe European commission tabled on 26 june 2012 its strategy to boost the industrial production of KETS key enabling technologies-based products, e g. innovative products and applications of the future. The strategy aims to keep pace with the EU€ s main international competitors, restore growth in Europe and create jobs in industry, at the same time addressing today's burning societal challenges. †148 Along similar lines, many European countries have focused recently on building their own domestic data centers, rather than ensuring that European ICT users have access to the cheapest and highest quality cloud data providers This focus on the ICT-producing sector appears to be misplaced. Rohman finds that the beneficial effects of the ICT sector for the broader European economy declined after the year 2000.149 Other recent evidence has shown that most of the productivity gains from ICT are due to ICT-using sectors. Figure 16) To a large degree, this is because ICT-using sectors, like market and non-market services, make up a much larger part of developed -country economies than ICT-producing sectors, so productivity gains in those sectors have a much larger effect on the whole economy. 150 There are many possible reasons why policymakers prioritize ICT industry growth over ICT usage. One is simply a misunderstanding of the true sources of ICT-related growth With the great success of some of the world ICT leaders, such as Apple, Google, Intel, and Samsung, it seems logical to try to replicate that success. A second reason appears to be an aversion to ICT adoption-based growth because of the fear that it will lead to disruption and perhaps job loss in individual enterprises. Emblematic are comments from French Industry Minister Arnaud Montebourg, who recently stated that when it comes to innovation that can destroy existing companies, â€oewell, we have to go slowly. †151 Certainly job disruption is painful and it is understandable for policymakers to try to prevent it, but it still leads to efforts to get a cloud data center in rural France, instead of helping French EU firms have been less willing or able to reengineer business processes around the use of ICT PAGE 26 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 companies embrace the cloud and engage in disruptive productivity growth. The reality is that â€oegoing slowly†means â€oegrowing slowly. †This explains the overriding focus in Europe on job creation and the concern that productivity growth will conflict with job growth. For example, European officials look to the green economy for jobs, even though it will likely mean higher energy costs and lower productivity. Many in fact view that productivity as the enemy of job growth, even though this view has been discredited thoroughly both by history and economics. 152 Figure 16: ICT use effect and ICT output effect on GDP (2000 to latest year, percentage points per annum) 153 WHAT DOES NEED EUROPE TO DO As Europe emerges from the economic crisis, it faces continued challenges but also opportunities. With its financial system stabilized, Europe†s central economic challenge over the next quarter century will be to raise productivity growth rates. Faster productivity growth will ensure that Europe†s production will be able to support a growing share of the population not in the labor force, that its firms will maintain global competitiveness, and that its governments will have the ability to raise needed revenues without imposing even higher tax rates. Its central opportunity will be to take advantage of the ICT engine to shift to a higher productivity path. To do this, though, policymakers will have to make widespread adoption of ICT a policy priority across the entire EU economy. While it is beyond the scope of this report to lay out a detailed ICT policy blueprint for Europe, there are at are at least seven key principles policymakers should follow if the EU and EU nations are to fully benefit from ICT 0 0. 2 0. 4 0. 6 0. 8 Slovenia Italy Ireland Germany Austria France Netherlands Czech Rep Spain Canada Hungary U k Japan Denmark Belgium Australia Finland Sweden U s a ICT use effect ICT output effect Policymakers will have to make widespread adoption of ICT a policy priority across the entire EU economy PAGE 27 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Focus on Raising Productivity Many European officials see increasing jobs, even if it means reducing productivity, as the top priority. 156 As long as European policymakers continue to place job creation above productivity it will be difficult to close the productivity gap with the United states. To be clear, in the aftermath of the Great Recession and the relatively anemic job growth in Europe (and the United states), job creation is important. But productivity growth is just as important, and will become even relatively more important as the years go on Moreover, as the scholarly literature shows, there is no negative relationship between higher productivity and job growth. 157 Focus on Across-the-board Productivity Growth, Particularly Through Greater Use of ICT EU economic policymakers face the key choice of whether to focus their strategies on targeting a few key technology sectors†in part through trade policy (e g.,, higher tariffs on imports) and regulations (e g.,, the push for the â€oeeuropean cloudâ€) †or on spurring widespread ICT adoption. The choice should be clear: even in the United states the ICT sector itself employs a small percentage of the workforce that is not growing. Moreover, for most countries most of the productivity gains from ICT have originated in other sectors This means that Europe†s attempts to â€oecreate its own Silicon valleys, †even if they were to be successful†which is by no means assured†is not the right path. While hi-tech clusters can provide important value, the United states has shown that there is much more potential productivity to be unlocked through â€oeacross-the-board†growth enabled by the use of ICT in non-ICT industries. For most nations, and certainly the EU as a whole productivity growth across the board, rather than a shift to higher value-added ICT sectors will account for the majority of per capita-income income growth. 158 This does not mean that nations and the EU as a whole cannot pursue both strategies However, they may come into conflict in some cases, as when a particular policy supports one of these goals but conflicts with the other. A case in point was the decision by the European commission to reclassify some IT imports so that they were covered no longer by the WTO€ s Information technology Agreement that was supposed to eliminate tariffs ON IT products. In particular, the European Taxation and Customs union wanted to interpret the 2004 revisions to the Harmonized Tariff Schedule (HTS) by the World Customs Organization in a way that enabled EU member states to apply tariffs as high as 14 percent on digital cameras, multi-function printers, set-top boxes, and liquid crystal display (LCD) computer monitors. 159 The intent was to boost the production of these high-value products in Europe, but the impact would have also been to limit ICT adoption. Fortunately, a World trade organization panel ruled in 2010 that the European Union†s imposition of duties on these products violated the ITA, rejecting the European Union†s claim that added functionality since the agreement was reached in 1996 meant that some products were now consumer goods rather than information technology goods. 160 In cases like this, the key question facing European policymakers is whether there is more value in expanding their IT industry or in applying IT to other sectors of the economy, and PAGE 28 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 whether promotion of the former through higher tariffs or other restrictions (like on cross -border data flows) will be detrimental to the latter Yet, even if raising tariffs might lead to some offsetting production of the good or service in Europe, raising tariffs on ICT is particularly problematic because it makes ICT more expensive and reduces ICT investment by firms and other organizations. As noted above this is already a key problem in most European nations, which has less investment in ICT than does the United states. There is compelling evidence that tariffs ON IT products will result in less ICT use in Europe. Estimates for the price elasticity of demand for IT products find that that for every 1-percent drop in price in IT products, there is a corresponding 1-percent increase in demand. 161 Because tariffs raise the price of IT products, it would be expected that they would reduce demand†and this is exactly what research has found. For example, a study of tariffs ON IT products in India found that they reduced domestic IT investment. 162 In a cross-national study of countries in the Asia -Pacific region, Kraemer and Dedrick show clearly the benefits of IT use, and the high costs of policies, including tariffs on ICT products, which would depress demand for ICT. 163 As Kraemer notes, â€oeone of the best ways to promote IT use is to not create barriers to use Any government policy that makes computers more expensive will discourage use and reduce the possible benefits of IT. Simply lowering tariffs and taxes, eliminating other trade barriers, and encouraging competition in distribution channels will help promote use as much as any specific efforts to encourage use. †164 It†s not enough to make productivity growth in a few sectors an overriding priority: any economy seeking success needs to prioritize â€oeacross-the-board†productivity growth strategies, rather than efforts to raise productivity by modestly expanding output in high -productivity sectors like ICT. But as noted above, this strategy comes with some levels of disruption. It†s easy politically to support the breaking of ground for a semiconductor factory. It†s a lot harder to support a change in laws that would lead organizations to restructure work through ICT that might lead to some layoffs. Yet it is only by pursuing the latter path that Europe can meet its economic challenges of the next quarter century Actively Encourage Digital Innovation and Transformation of Economic Sectors The private sector will drive much of digital transformation, but government can and should play a supportive role. Economists have argued long that businesses under-invest in research, which is the rationale for governments instituting research grants and R&d tax incentives. Economists have documented also significant market failures around IT investment, including network externalities and â€oechicken-or-egg†issues that slow digital transformation absent smart and supportive public policies. 165 Health care is a leading example. Success for any individual health organization that embraces a digital business model depends on other health organizations, and also patients, embracing the digital model. Such chicken-or-egg and network externality issues exist in a host of industries including transportation, real estate, government, and education, as well as in a host of technology industry areas such as high-speed broadband telecommunications, smart cards radio frequency identification devices (RFID), geographic information systems, mobile commerce, and the Internet of things. In these cases, EU governments should use a wide PAGE 29 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 array of policy levers, including tax, regulatory, and procurement policies, to spur greater ICT innovation and transformation Moreover, government officials at all levels can and should lead by example by leveraging their own ICT efforts to achieve more effective and productive public sector management and administration. Among other things, this means government should not only actively promote e-government but should also look to how ICT can be used help solve a wide array of pressing public challenges. In this regard ICT can now be a key public policy tool alongside tax, procurement and regulation. 166 Use Tax and Trade policy to Spur ICT Investment It is only through investment in ICT that ICT innovation is diffused throughout the economy. For this reason, public policies should focus on spurring additional investment by organizations in the latest-generation ICT. Policymakers should minimize, if not eliminate, taxes on ICT investments, including broadband telecommunications, Internet usage, and data. They should allow companies to more rapidly depreciate ICT investments for tax purposes, including allowing firms to expense them in the first year Some economists might question such policies, arguing that such tax incentives should only go to investments in areas like R&d where companies seldom capture all the benefits However, there is evidence that because ICT transforms organizations and leads to innovations within other organizations, it operates in the same way as research, with high spillovers that may be taken advantage of by other organizations. 167 In such an environment, the socially optimal amount of investment will lag behind actual investment As such, it makes sense for the tax code to spur additional ICT investment, or at least to avoid having the tax code penalize ICT investment At the same time, the EU should continue to embrace the ITA agreement in order to ensure low prices for European ICT users. The ITA has played a critical role in the spread of ICT products, helping to increase global ICT exports from $1. 2 trillion in 1997 to over $5 trillion today. 168 Without the ITA, prices would rise for ICT-using industries investment in ICT goods would decline, and productivity growth would slow. 169 Create Larger Markets for EU Firms ICTS benefit from economies of scale. This means the larger the market, the easier it can be for an organization to recoup its ICT investments. The EU has been advancing frameworks for better intra-EU digital compatibility and access through the Digital Agenda for Europe†s Single Digital Market initiative, started in 2010. For example, it is working to rationalize the value-added tax for online sales and simplifying rules for the licensing and distribution of content. 170 These are steps in the right direction, but Europe needs to go further. Since most the productivity gains from ICT are not from ICT industries but more traditional industries that adopt the use of ICT, it is important to encourage market integration in the latter industries as well. The 2014 European commission report on Single Market Integration finds that a number of countries, including Germany, France, Austria, and Belgium, stand in need of reforms to more fully open their service sectors with the rest of Europe. 171 In PAGE 30 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 particular, many professional services have national or sub-national barriers to entry based on ensuring quality of service. While these barriers may serve important safety or quality goals, they may also function as barriers to competition and are not always worth their costs in public welfare Finally, the Transatlantic Trade and Investment Partnership (TTIP) would significantly expand markets for many European firms by reducing non-tariff barriers in the United States and increasing the ability of European companies to invest there. A recent report from Sweden estimates that European exports to the United states could increase by 20 percent to 40 percent under the TTIP. 172 These larger markets would increase the return on investment on more ICT projects for firms in the EU Reduce Preferences for Small Businesses Europe, to an even greater degree than the United states, overemphasizes the role of small firms in the economy in rhetoric and in policy. 173 For many policymakers, small firms have come to represent everything good in the economy. Yet, on average large firms are more productive, pay higher wages, injure their workers less, are more innovative, and export more. 174 This is not to say that small firms do not add value. Indeed, new firms that grow quickly do create a significant share of net new jobs. But the large majority of small firms stay small, particularly in Europe where firm size is much more stable than in the United States. 175 Policies that lead to smaller firm size hurt productivity and income growth. The European countries with the highest productivity tend to have far fewer small firms: Germany Switzerland, and the UK have the smallest proportion of workers in small firms and have some of the highest labor productivity rates. 176 On the other hand, Greece has very low productivity, and has the highest percentage of small firms in Europe (two-thirds of Greek firms have under 20 workers. 177 Larger firms are usually more productive, in part because they can take greater advantage of economies of scale when they invest in capital stock including ICT. 178 Preferences for small businesses can take two forms: active policies to provide special benefits to small business; and discriminatory policies that place tax and regulatory burdens only on large businesses. The former policies, unless carefully targeted to potential high -growth â€oegazelle firms, †simply keep the share of the economy produced by small businesses larger than it otherwise would be. 179 The latter policies not only slow the growth of larger firms, they can slow the growth of smaller firms that don†t want to lose their special entitlements for being small if they get bigger than the threshold. 180 France†s â€oeanti -Amazon†law that prohibits discounts on books, including free shipping, is one example because it raises prices for books from more efficient e-commerce channels, limiting productivity growth in this sector. 181 Do No Harm Putting spurring ICT adoption at the center of economic policy means not just supporting it, but just as importantly avoiding harm. Notwithstanding the progress that ICT enables all too often well-intentioned policymakers are willing to consider laws and regulations that could slow digital transformation. One of the areas currently most at risk is digital trade Policies that lead to smaller firm size in an economy hurt productivity and income growth PAGE 31 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 due to emerging â€oedata nationalism††the idea that data must be stored domestically in order to keep it secure. Data nationalism is a â€oefalse promise†because it is unlikely to deliver the expected benefits of privacy and security, and it also holds significant potential to slow down ICT-related growth. 182 Unfortunately, data nationalist policies are already a reality in some countries: both the Norwegian and Danish Data protection Authorities have issued rulings to prevent the use of cloud computing services by municipalities when servers are not located domestically (although the Norwegian decision was rescinded). 183 There has been talk as well by European leaders of building a â€oeeuropean network†for communication so that data never physically crosses the Atlantic. 184 By definition, the result of these kinds of policies will be to raise the costs of ICT services for firms in these nations, reducing their ICT adoption and productivity. European firms should have free access to the best in breed and best value IT goods and services, regardless of where they are produced The issue of privacy regulations is similar. The responsible use of data can lead to productivity gains and innovation. However, overly stringent privacy rules limit the ability of enterprises to obtain these gains. 185 For example, less effective advertising reduces available revenue for websites and can cripple the growth of useful services Another example is the â€oeright to be forgotten†rule implemented by the European Union. 186 The rule allows citizens to request that any information about them held by search engines be removed. 187 Such a rule might sound good in theory, but in practice it could prove quite difficult for compliance and enforcement. The rule could be â€oeimpossible to implement, †according to the European Network and Information security Agency rendering the attempt not only damaging to commerce but wasteful as well. 188 And as noted above, damage to the EU GDP could be large: between 1. 5 percent and 3. 9 percent of the GDP. 189 On a more local scale, city regulations have been keeping the ride-coordination service Uber from making inroads in Europe. 190 European cities need to find solutions that harness the benefits of technology and avoid rules that lock themselves into less productive producers CONCLUSION In conclusion, Europe has the potential to raise productivity significantly if it fully embraces the use of ICT. Some progress has been made: the Digital Agenda for Europe takes many steps in the right direction, like moving toward the Digital Single Market and encouraging the use of ICT in a variety of public sectors. 191 But the European economic crisis has kept Euro-area investment on the decline while preoccupying policymakers with other issues. Meanwhile, productivity rates continue to lag behind U s. rates in the majority of EU countries. This is thanks to public policies and business practices in the United states that are more conducive to ICT use: better management, higher levels of ICT investment (particularly in ICT-using sectors), lower taxes on ICT products, and larger economies of scale at both the firm and market levels. Instead of seeing ICT adoption as a worldwide competition for the next new Silicon valley, Europe needs to focus on where ICT can make the most difference: ICT use. This is a path the United European firms should have free access to the best in breed and best value IT goods and services regardless of where they are produced PAGE 32 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 States has taken already and proven successful, and Europe would prosper by following its lead ENDNOTES 1. The Conference Board, Total Economy Database: January 2014 (total GDP EKS, labor productivity per hour worked EKS; accessed April 2, 2014), http://www. conference -board. org/data/economydatabase/;/author calculations following Marcel P. Timmer et al. â€oeproductivity and Economic growth in Europe: A Comparative Industry Perspective, †International Productivity Monitor 21 (2011: 3†23 2. The Conference Board, Total Economy Database 3. Ibid 4. Ibid 5. Ibid 6. Mary O†Mahony and Bart van Ark, eds. â€oeeu Productivity and Competitiveness: An Industry Perspective†(European commission, 2004), 8 7. See: Jack E. Triplett and Barry P. Bosworth, â€oe†Baumol†s Disease†Has been cured: IT and MFP in US Service Industries†(The Brookings Institution, 2003 http://www. ny. frb. org/newsevents/events/research/2002/Triplett. doc 8. GDP in 2013 EKS PPPS. The Conference Board, Total Economy Database: January 2014 (Table 5 accessed April 2, 2014), http://www. conference-board. org/data/economydatabase /10. Ibid 11. Ibid 12. Ibid. Note that EU-28 productivity actually decreases due to the less-productive EU-13 increasing their share of GDP 13. Ibid. Authors†analysis 15. Ibid. Data unavailable for Croatia, Estonia, Latvia, and Slovenia 16. Ibid 17. Ibid. Data unavailable for Croatia, Estonia, Latvia and Slovenia; Romania excluded because its extremely low initial productivity makes it an outlier 18. Robert D. Atkinson, â€oecompetitiveness, Innovation and Productivity: Clearing up the Confusion†Information technology and Innovation Foundation, August 2013 http://www. itif. org/publications/competitiveness-innovation-and-productivity-clearing-confusion 19. The Conference Board, Total Economy Database: January 2014 (total GDP EKS, labor productivity per hour worked EKS; accessed April 2, 2014), http://www. conference -board. org/data/economydatabase/;/Timmer et al. â€oeproductivity and Economic growth in Europe. †Assuming 2. 8 percent productivity growth 20. The Conference Board, Total Economy Database. Assuming 1. 6 percent productivity growth 21. Ibid. Assuming yearly productivity growth for EU-15 after 1995 was the actual rate for the United states and the rate for the United states was the actual rate for the EU-15 22. OECD Statextracts (Short-term Labour market Statistics: Activity Rates, aged 55-65, all persons accessed February 13, 2014), http://stats. oecd. org 23. OECD Statextracts, Country Statistical Profiles 2012 (elderly population 65+,population growth rates accessed January 20, 2014), http://stats. oecd. org/Index. aspx? Datasetcode=CSP2012 #24. Based on the EU-15 rate of growth of 0. 8 from 2006-2013. This does not account for the aging of the population, which would lower growth even more 25. For more information on the distinctions between these concepts, see: Atkinson, â€oecompetitiveness Innovation and Productivity. †26. See for example: Stephen Ezell and Robert D. Atkinson, â€oethe Good, the Bad, and the Ugly of Innovation Policy†(Information technology and Innovation Foundation, October 7, 2010), 27-30 http://www. itif. org/publications/good-bad-and-ugly-innovation-policy; James Manyika et al. How to Compete and Grow: A Sector Guide to Policy (Mckinsey Global Institute, March 2010 http://www. mckinsey. com/insights/economic studies/how to compete and grow PAGE 33 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 27. Chad Syverson, â€oewhat Determines Productivity? †Journal of Economic Literature 49, no. 2 june 2011 326†65, doi: 10.1257/jel. 49.2.326 28. OECD and Eurostat, Oslo Manual: Guidelines for Collecting and Interpreting Innovation Data (OECD 2005 29. Robert D. Atkinson, â€oecompetitiveness Innovation and Productivity: Clearing up the Confusion†Information technology and Innovation Foundation, August 2013), http://www2. itif. org/2013 -competitiveness-innovation-productivity-clearing-up-confusion. pdf 30. Paul M. Romer, â€oeendogenous Technological Change, †Journal of Political economy 98, no. 5 (1990 S71†S102 31. Robert D. Atkinson, Stephen Ezell, Scott M. Andes, and Daniel Castro, The Internet Economy 25 Years After. com (Information technology and Innovation Foundation, March 2010 http://www. itif. org/publications/internet-economy-25-years-after-com; Matthieu Pà lissiã du Rausas et al.,, â€oeinternet Matters: The Net†s Sweeping Impact on Growth, Jobs, and Prosperity†(Mckinsey Global Institute, May 2011 32. Bureau of Economic Analysis, NIPA Archive for June 26, 2013 (Section 5: Saving and Investment, Table 5. 3. 5; accessed March 3, 2014 http://www. bea. gov/histdata/NIYEARAPFFILES. asp? docdir=Releases/GDP AND PI/2013/Q1/Third june -26-2013&year=2013&quarter=Q1 33. Robert D. Atkinson, The Past and Future of America†s Economy: Long Waves of Innovation that Power Cycles of Growth (Northampton, Massachusetts: Edward Elgar, 2004 34. Richard G. Lipsey, â€oetransformative Technologies in the past Present and Future: Implications for the U s. Economy and U s Economic Policy†(presentation at ITIF Breakfast Forum, July 15, 2008 http://www. itif. org/files/2008-07-15-lipsey. pdf 35. See Kenneth I. Carlaw, Richard G. Lipsey, and Ryan Webb, â€oehas the ICT Revolution Run its Course? †discussion paper no. 07-18, Simon Fraser University Department of economics, September 2007 http://www. sfu. ca/econ-research/Repec/sfu/sfudps/dp07-18. pdf 36. Jason Dedrick, Vijay Gurbaxani, and Kenneth L. Kraemer, â€oeinformation Technology and Economic Performance: A Critical review of the Empirical Evidence, †ACM Computing Surveys 35, no. 1 march 2003): 1 37. For several of the numerous literature surveys, see: Dedrick et al. â€oeinformation Technology and Economic Performance, †12; Mirko Draca, Raffaella Sadun, and John Van Reenen, â€oeproductivity and ICT: A Review of the Evidence†(discussion paper no. 749, Centre for Economic Performance, August 2006), http://eprints. lse. ac. uk/4561/;/Tobias Kretschmer, â€oeinformation and Communication Technologies and Productivity Growth: A Survey of the Literature, †OECD Digital economy Papers, no 195 (2012), http://dx. doi. org/10.1787/5k9bh3jllgs7-en; M. Cardona, T. Kretschmer, and T. Strobel â€oeict and Productivity: Conclusions from the Empirical Literature, †Information Economics and Policy 25, no. 3 september 2013: 109†125, doi: 10.1016/j. infoecopol. 2012.12.002 38. Jack E. Triplett and Barry P. Bosworth, â€oeproductivity Measurement Issues In services industries †Baumol†s Disease†Has been cured, †FRBNY Economic policy Review 9, no. 3 (2003: 23†33; see also Carol A. Corrado et al. â€oesectoral Productivity in the United states: Recent Development and the Role of IT, †Productivity Measurement and Analysis (OECD Publishing, 2008 https://www1. oecd. org/std/productivity-stats/44516351. pdf#page=437; Sophia P. Dimelis and Sotiris K Papaioannou, â€oetechnical Efficiency and the Role of ICT: A Comparison of Developed and Developing Countries, †Emerging Markets Finance & Trade 47 (July 2, 2011: 40†53, doi: 10.2753/REE1540 -496x4704s303; Jason Dedrick, Kenneth L. Kraemer, and Eric Shih, â€oeinformation Technology and Productivity in Developed and Developing Countries, †Journal of Management Information systems 30 no. 1 july 1, 2013: 97†122, doi: 10.2753/MIS0742-1222300103 39. John Van Reenen et al. â€oethe Economic Impact of ICT, SMART€ (Centre for Economic Performance 2010), http://www. ukn. inet -tr. org. tr/eu/DCR/cstudytheeconomicimpactofictlondonschoolofeconomics. pdf 40. For example, the OECD report The Economic Impact of ICT found that ICT (production and use) was responsible for 109 percent of the growth in labor productivity from 1996 to 2002. OECD, The Economic Impact of ICT: Measurement, Evidence and Implications (OECD Publishing, 2004), 96 http://www. oecd -PAGE 34 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 ilibrary. org/docserver/download/9204051e. pdf? expires=1398953382&id=id&accname=ocid43017007& checksum=04b30d1bfc36e957bcfd995ccb443898. See also: Robert D. Atkinson and Andrew Mckay, â€oedigital Prosperity: Understanding the Economic Benefits of the Information technology Revolution†(Information technology and Innovation Foundation, March 2007 http://archive. itif. org/index. php? id=34 41. Dale W. Jorgenson, Mun S. Ho, and Jon D. Samuels, â€oea Prototype Industry-Level Production Account for the United states, 1947-2010†(presentation to the Final World Input-Output Database Conference Groningen, The netherlands, April 2013), 24 http://www. worldklems. net/data/notes/jorgenson ho samuels. USPRODUCTIONACCOUNT. pdf 42. Ibid. 30; David M. Byrne, Stephen D. Oliner, and Daniel E. Sichel, â€oeis the Information technology Revolution Over? †(SSRN Scholarly Paper, March 27, 2013), 22 http://papers. ssrn. com/abstract=2240961; Chad Syverson, â€oewill History Repeat Itself? Comments on †Is the Information technology Revolution Over? ††International Productivity Monitor 25 (2013: 37†40 43. S. Gilchrist, V. Gurbaxani, and R. Town, â€oeproductivity and the PC Revolution†(working paper, Center for Research on Information technology and Organizations, 2001; Robert K. Plice and Kenneth L Kraemer, â€oemeasuring Payoffs from Information-technology Investments: New Evidence from Sector -Level Data on Developed and Developing Countries†(working paper, Center for Research on Information technology and Organizations, 2001; Mika Maliranta and Petri Rouvinen, â€oeproductivity effects of ICT in Finnish business†(discussion paper no. 852, Research Institute of the Finnish Economy, 2003 44. Daniel J. Wilson, â€oeit and Beyond: The Contribution of Heterogeneous Capital to Productivity†working paper no. 13, Federal reserve bank of San francisco, 2004), 13 45. Lorin M. Hitt and Prasanna Tambe, â€oemeasuring Spillovers from Information technology Investments†proceedings of the 27th International Conference on Information systems, Milwaukee, WI, 2006 1793 46. Ana Rincon, Michela Vecchi, and Francesco Venturini, â€oeict Spillovers, Absorptive Capacity and Productivity Performance†(discussion paper, National Institute of Economic and Social Research November 25, 2013), http://eprints. mdx. ac. uk/9992 /47. For developing country literature, see: Dedrick et al. â€oeinformation Technology and Productivity in Developed and Developing Countries†for a cross-country study, or for specific examples see Geoff Walsham, â€oeicts for the Broader Development of India: An Analysis of the Literature, †The Electronic Journal of Information systems in Developing Countries 41 (2010 http://www. ejisdc. org/Ojs2/index. php/ejisdc/article/view/665 and Jyoti Vig, â€oeinformation Technology and the Indian Economy†(Phd diss. University of Minnesota, March 2011 http://conservancy. umn. edu/bitstream/104630/1/Vig umn 0130e 11796. pdf For public sector literature examples, see: Luis Garicano and Paul Heaton, â€oeinformation Technology Organization, and Productivity in the Public sector: Evidence from Police departments, †Journal of Labor Economics 28, no. 1 january 2010: 167†201; Davide Arduini et al. â€oethe Role of Technology Organization and Contextual Factors in the Development of E-Government Services: An Empirical Analysis on Italian Local Public Administrations, †Structural Change and Economic Dynamics 27 (2013 177†189 48. Antonin Arlandis, Stã phane Ciriani, and Gilles Koleda, â€oel†à conomie Numã rique et La Croissance†working paper, Coe-Rexecode, 2011 http://www. persee. fr/web/revues/home/prescript/article/tiers 0040-7356 1988 num 29 115 3718 49. OECD Statextracts, Country Statistical Profile 2012 (Contributions to GDP growth: ICT capital average annual growth rate 1985-2010; accessed January 28, 2014 http://stats. oecd. org/index. aspx? queryid=32480 50. Desirã e van Welsum, Willem Overmeer, and Bart van Ark, Unlocking the ICT Growth Potential in Europe: Enabling People and Businesses (European commission Digital Agenda for Europe, 2013 51. Vincenzo Spiezia, â€oethe Impact of ICT on Productivity and Growth†(European Network for the Research on the Economic Impact of ICT, September 2011 https://community. oecd. org/servlet/Jiveservlet/previewbody/33337-102-1 -63432/ICTNET%20issues%20papers%201-4. pdf 52. Ibid PAGE 35 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 53. Van Welsum et al. Unlocking the ICT Growth Potential in Europe 54. Dan Corry, Anna Valero, and John Van Reenen, â€oeuk Economic Performance since 1997: Growth Productivity and Jobs†(London School of economics and Political science, 2011 http://ideas. repec. org/p/ner/lselon/http--eprints. lse. ac. uk-47521. -html 55. Peter Goodridge, Jonathan Haskel, and Gavin Wallis, â€oeuk Innovation Index: Productivity and Growth in UK Industries†(discussion paper, Centre for Economic policy Research, July 2012), 52 http://ideas. repec. org/p/cpr/ceprdp/9063. html 56. Mika Maliranta, Petri Rouvinen, and Pekka Ylã¤-Anttila, â€oefinland†s Path to Global Productivity Frontiers through Creative Destruction, †International Productivity Monitor 20, no. 10 (2010: 68†84 57. Among others, see: Shikeb Farooqui, â€oeinformation and Communication Technology Use and Productivity, †Economic Trends 625 (December 2005; Chiara Criscuolo and Kathryn Waldron, â€oee -commerce and Productivity, †Economic Trends 600 (November 2003): 53; Tony Clayton, â€oeit Investment, ICT Use and UK Firm Productivity, †Economic Trends 625 (December 2005; Nicola Matteucci et al. â€oeproductivity, Workplace Performance and ICT: Industry and Firm-Level Evidence for Europe and the US, †Scottish Journal of Political economy 52, no. 3 (2005: 359†86; Thomas Hempell â€oewhat†s Spurious, What†s Real? Measuring the Productivity Impacts of ICT at the Firm-Level, †Empirical Economics 30 (2005: 427†64 58. Hal Varian, Robert E. Litan, Andrew Elder, and Jay Shutter, â€oethe Net Impact Study: The Projected Economic Benefits of the Internet In the United states, United kingdom, France, and Germany, Version 2. 0†(Cisco systems, Inc.,January 2002 http://www. netimpactstudy. com/Netimpact study report. pdf; Donald A. Johnston, Michael Wade and Ron Mcclean, â€oedoes E-business Matter to SMES? A Comparison of the Financial Impacts of Internet Business Solutions on European and North american SMES, †Journal of Small Business Management, 45,3 (July 2007): 354-361 59. Irene Bertschek, Helmut Fryges, and Ulrich Kaiser, â€oeb2b or Not to Be: Does B2b E-commerce Increase Labor Productivity? †ZEW Discussion Papers, no. 04-45 (2004 http://econstor. eu/bitstream/10419/24055/1/dp0445. pdf 60. Juha-Miikka Nurmilaakso, â€oeict Solutions and Labor Productivity: Evidence from Firm-Level Data, †Electronic commerce Research 9, no. 3 (2009): 173-81 61. Philipp Koellinger, â€oeimpact of ICT on Corporate Performance, Productivity and Employment Dynamics†(European commission Enterprise and Industry Directorate General, December 2006 http://ec. europa. eu/enterprise/archives/e-business -watch/studies/special topics/2006/documents/TR 2006 ICT-Impact i. pdf 62. Concetta Castiglione, â€oetechnical Efficiency and ICT Investment in Italian Manufacturing Firms, †Applied Economics 44, no. 14 (2012 http://www. tara. tcd. ie/bitstream/2262/62815/1/PEER STAGE2 10. 1080%252f00036846.2011.554374 pdf; Carlo Milana and Alessandro Zeli, â€oethe contribution of ICT to production efficiency in Italy: firm -level evidence using data envelopment analysis and econometric estimations, †OECD Science, Technology and Industry Working papers, no. 2002/13 (September 2002), http://dx. doi. org/10.1787/101101136045 Carlo Milana and Alessandro Zeli, â€oeproductivity slowdown and the role of ICT in Italy: a firm-level analysis†(OECD, 2004): 261-278, http://ssrn. com/abstract=700924 63. Simona Iammarino and Cecilia Jona-Lasinio, â€oeict Production and Labour Productivity in the Italian Regions†(European Urban and Regional Studies, February 7, 2013), doi: 10.1177/0969776412464504 64. Bronwyn H. Hall, Francesca Lotti, and Jacques Mairesse, â€oeevidence on the Impact of R&d and ICT Investments on Innovation and Productivity in Italian Firms, †Economics of Innovation and New Technology 22, no. 3 april 2013: 300†328, doi: 10.1080/10438599.2012.708134 65. Cipriano Quirã s Romero and Diego Rodrã guez, â€oee-Commerce and Efficiency at the Firm Level, †International Journal of Production Economics 126, no. 2 august 2010): 299-305 doi: 10.1016/j. ijpe. 2010.04.004 66. J. Ruiz-Mercader, A l. Meroã o-Cerdan, and R. Sabater-Sánchez, â€oeinformation technology and learning Their relationship and impact on organisational performance in small businesses, †International Journal of Information management 26, no. 1 (2005): 16-29 PAGE 36 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 67. Paul-Antoine Chevalier, Rà my Lecat, and Nicholas Oulton, â€oeconvergence of Firm-Level Productivity Globalisation and Information technology: Evidence from France, †Economics Letters 116, no. 2 august 2012): ) 244†246, doi: 10.1016/j. econlet. 2012.02.022 68. Roman Beck, Rolf Wigand, and Wolfgang Konig, â€oeintegration of E-commerce by SMES in the Manufacturing Sector, †Journal of Global Information management 13, no. 3 july-September 2005): 20 -32, http://www. infosci-journals. com/downloadpdf/pdf/ITJ2901 FXBCKLEGFC. pdf 69. H. O. Hagã n and J. Zeed, â€oedoes ICT use matter for firm productivity? †Yearbook on Productivity 2005 Statistics Sweden, 2005), 5†30 http://www. scb. se/statistik/publikationer/AA9999 2005A01 BR XFT0601. pdf; Hagã n et al â€oeinnovation matters: An empirical analysis of innovation 2002†2004 and its impact on productivity, †Yearbook on Productivity 2007 (Statistics Sweden, 2008), 33†62 http://www. scb. se/statistik/publikationer/OV9999 2007A01 BR 00 X76BR0801. pdf 70. Rene Belderbos, Vincent Van Roy, and Florence Duvivier, â€oeinternational and Domestic Technology Transfers and Productivity Growth: Empirical Evidence for Flanders†(working paper, STOIO December 2008), 1-31 71. George van Leeuwen and Henry van der Wiel, â€oeict, innovation and productivity, †CPB Report 2 2003): ) 41†45 72. â€oee-Business W@tch Chart Report: The E-business Survey 2006, †(European commission †Enterprise & Industry Directorate General), 8,, http://ec. europa. eu/enterprise/archives/e-business -watch/statistics/documents/Chartrep 2006 000. ppt 73. Vincenzo Spiezia, â€oeare ICT Users More Innovative? An Analysis of ICT-Enabled Innovation in OECD Firms, †OECD Journal: Economic Studies 2011 (2011): 117 http://www. oecd. org/oecdjournal/1311011e. PDF#page=101 74. Ana Salomã Garcã a-Muã iz and Marã a Rosalã a Vicente, â€oeict Technologies in Europe: A Study of Technological Diffusion and Economic growth under Network theory, †Telecommunications Policy 2014), doi: 10.1016/j. telpol. 2013.12.003 75. Michael Polder et al. â€oeproduct, Process and Organizational Innovation: Drivers, Complementarity and Productivity Effects, †CIRANO-Scientific Publications 2010s-28 june 18,2010 http://papers. ssrn. com/sol3/papers. cfm? abstract id=1626805 80. Richard Bennet, Luke A. Stewart, and Robert Atkinson, â€oethe Whole Picture: Where America†s Broadband Networks Really Stand†(Information technology and Innovation Foundation, February 2013), http://www2. itif. org/2013-whole-picture-america-broadband-networks. pdf 82. M. Cardona, T. Kretschmer, and T. Strobel, â€oeict and Productivity: Conclusions from the Empirical Literature, †Information Economics and Policy 25, no. 3 september 2013: 109†125 doi: 10.1016/j. infoecopol. 2012.12.002 83. Bart Van Ark, Robert Inklaar and Robert H. Mcguckin, â€oeict and Productivity in Europe and the United states: Where Do the Differences Come From? †CESIFO Economic Studies 49, no. 3/2003 (2003 295†318; OECD, Country Statistical Profile 2012 (Investment Data and Shares of ICT Investment in Total Nonresidential GFCF; accessed January 28, 2014 http://stats. oecd. org/index. aspx? queryid=32480 84. OECD, OECD Factbook 2013: Economic, Environmental and Social Statistics (Science & Technology Investment in ICT: Shares of ICT investment in nonresidential gross fixed capital formation; accessed April 2, 2014) http://www. oecd-ilibrary. org/economics/oecd-factbook-2013 factbook-2013-en; World Bank, Databank: World Development Indicators (Gross Fixed Capital Formation as percentage of GDP); ) The Conference Board, Total Economy Database: January 2014 (Table 5; accessed April 2 2014), http://www. conference-board. org/data/economydatabase /85. National Science Foundation, Science and Engineering Indicators 2014 (Figure 6-7, ICT business and consumer spending as a share of GDP; accessed April 8, 2014 http://www. nsf. gov/statistics/seind14/content/chapter-6/fig06-07. xls 86. Ibid 87. Ibid 88. Hubert Strauss and Besik Samkharadze, â€oeict Capital and Productivity Growth, †EIB Papers 16, no. 2 2011): ) 8†28 PAGE 37 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 89. Ibid. Major European countries included in this chart are: Austria, Belgium, Czech republic, Denmark Finland, France, Germany, Greece, Ireland, Italy, Luxembourg, Netherlands, Portugal, Slovak Republic Slovenia, Spain, Sweden, Switzerland, and the United kingdom 93. â€oelarge EU Countries†refers to Austria, Denmark, Finland, France, Germany, Ireland, Italy Netherlands, Spain, Sweden, Switzerland, and the United kingdom. OECD Statextracts, Country Statistical Profiles 2012 (shares of ICT investment in nonresidential gross fixed capital formation accessed January 20, 2014; World bank, World Development Indicators (Gross Fixed Capital Formation%GDP; accessed April 10, 2014 94. See Raquel Ortega-Argilã s, â€oethe Transatlantic Productivity Gap: A Survey of the Main Causes, †Journal of Economic Surveys 26, no. 3 july 2012: 395†419, doi: 10.1111/j. 1467-6419.2012.00725. x In another paper examining Europe†s lagging productivity, Ortega-Argilã s et al. write that â€oethe fact that structural hourly productivity levels are higher in the US than elsewhere shows that US is indeed setting the technical frontier in terms of productive efficiency and that other countries are lagging behind to varying degrees. †Raquel Ortega-Argilã s, Mariacristina Piva, and Marco Vivarelli, â€oeproductivity Gains from R&d Investment: Are High-tech Sectors Still Ahead? †(discussion paper, Institute for the Study of Labor, 2011), http://ideas. repec. org/p/iza/izadps/dp5975. html. See also: Renaud Bourlã s and Gilbert Cette, â€oetrends in †structural†Productivity Levels in The major Industrialized Countries, †Economics Letters 95, no. 1 (2007: 151†156 95. Strauss and Samkharadze, â€oeict Capital and Productivity Growth. †96. OECD, Science, Technology and Industry Scoreboard 2013 (Chapter 2: Figure 2. 1. 3 ICT investment by asset, 2000 and 2011; accessed January 28, 2014), http://dx. doi. org/10.1787/888932890599 97. â€oenetworked Readiness Index 2014, †on the World Economic Forum website, accessed May 7, 2014 http://www. weforum. org/issues/global-information-technology 98. Ibid 99. Timmer et al. â€oeproductivity and Economic growth in Europe. †100. Ibid. 24 101. Matilde Mas, â€oeict and Productivity Growth in Advanced Economies†(working paper, University of Valencia and Ivie, 2010 102. OECD Statextracts, Productivity Database By Industry 2012. Growth of labour productivity, in per cent, Business Services Sector; accessed February 24 http://stats. oecd. org/Index. aspx? Datasetcode=PDBI I4 103. For a review of the literature, see: Federico Biagi, â€oeict and Productivity: A Review of the Literature†Institute of Prospective Technological Studies, Joint Research Centre, 2013 ftp://ftp. jrc. es/pub/EURDOC/JRC84470. pdf. See also: Christopher Gust and Jaime Marquez â€oeinternational Comparisons of Productivity Growth: The Role of Information technology and Regulatory Practices, †Labour Economics 11, no. 1 february 2004: 33†58, doi: 10.1016/S0927 -5371 (03) 00055-1 104. Van Reenen et al. â€oethe Economic Impact of ICT, SMART. †105. Ibid 106. Avi Goldfarb and Catherine Tucker, â€oeprivacy and Innovation†(National Bureau of Economic Research 2011), http://www. nber. org/papers/w17124; Avi Goldfarb and Catherine E. Tucker, â€oeprivacy Regulation and Online Advertising, †Management Science 57, no. 1 (2011: 57†71 107. James Campbell, Avi Goldfarb, and Catherine Tucker, â€oeprivacy Regulation and Market Structure†working paper, SSRN, 2011), http://papers. ssrn. com/sol3/papers. cfm? abstract id=1729405 108. Matthias Bauer et al. â€oethe Economic Importance of Getting Data protection Right: Protecting Privacy Transmitting Data, Moving Commerce†(European Centre for International Political economy/U s Chamber of commerce, March 2013 https://www. uschamber. com/sites/default/files/legacy/reports/020508 economicimportance final revi sed lr. pdf 109. L. Christensen et al. â€oethe Impact of the Data protection Regulation in the EU€ (Intertic, 2013 http://www. intertic. org/new site/wp-content/uploads/Policy%20papers/CCER. pdf 110. Mike Butcher, â€oestupid EU Cookie Law Will Hand the Advantage to the US, Kill Our Startups Stone Dead, †Techcrunch, accessed May 28, 2014, http://techcrunch. com/2011/03/09/stupid-eu-cookie-law -will-hand-the-advantage-to-the-us-kill-our-startups-stone-dead/;/Meg Leta Ambrose, â€oethe Law and the PAGE 38 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Loop†(Proceedings of the International Symposium on Ethics in Engineering science, and Technology 2014 111. Van Reenen et al. â€oethe Economic Impact of ICT, SMART. †112. Ibid. 14 113. Ibid 114. Cristiano Antonelli and Francesco Quatraro, â€oelocalized Technological Change and Efficiency Wages across European Regional Labour markets, †Regional Studies 47, no. 10 (2013: 1686†1700 115. Tillmann Schwã rer, â€oeoffshoring, Domestic Outsourcing and Productivity: Evidence for a Number of European countries, †Review of World Economics 149, no. 1 (2013: 131†49; Jerry Luftman et al. â€oekey Information technology and Management Issues 2011†2012: An International Study, †Journal of Information technology 27, no. 3 (2012: 198†212; â€oetalking Points, †Information Services Group February 2013, http://www. isg-one. com/web/research-insights/talking-points/archive/1302. asp 116. Kevin Sneader et al. From Austerity to Prosperity: Seven priorities for the long term (Mckinsey and Company, London/Mckinsey Global Institute, November 2010 https://www. mckinsey. com//media/Mckinsey/dotcom/Insights%20and%20pubs/MGI/Research/Produ ctivity%20competitiveness%20and%20growth/From%20austerity%20to%20prosperity/MGI UK FR om austerity to prosperity full report. ashx; Bill Lewis et al. Removing Barriers to Growth and Employment in France and Germany (Mckinsey Global Institute, March 1997 http://www. mckinsey. com/insights/europe/removing barriers to growth and employment in france a nd germany 117. Paul C. Cheshire, Christian Hilber, and Ioannis Kaplanis, â€oeland Use Regulation and Productivity-Land Matters: Evidence from a UK Supermarket Chain†(working paper, University Rovira i Virgili Department of economics, 2012), http://www. recercat. net/handle/2072/196650 121. OECD, Consumption Tax Trends 2012 (OECD Publishing, 2012), http://www. oecd -ilibrary. org/taxation/consumption-tax-trends-2012 ctt-2012-en 122. Stephen J. Ezell, â€oeboosting Exports, Jobs, and Economic growth by Expanding the ITA€ (Information Technology and Innovation Foundation, March 2012), http://www. itif. org/publications/boosting -exports-jobs-and-economic-growth-expanding-ita 123. UHY, â€oean International Comparison of Indirect Taxation: Exploring Government†s Contribution to the Cost of Everyday Goods†(UHY, December 2012), http://www. uhy. com/wp-content/uploads/UHY -Indirect-taxes-Report-FINAL-DEC-2012. pdf 124. Ibid 125. Greg Sterling, â€oefrance Wants To Tax Facebook, Google †Personal data Collection, ††Marketing Land January 21, 2013, http://marketingland. com/france-wants-to-tax-facebook-google-personal data -collection-31196; Jacob Albert, â€oefrance Wants to Tax Data mining, and It†s Not a Bad Idea, †Quartz January 22, 2013, http://qz. com/45764/france-wants-to-tax-data-mining-and-its-not-a-bad-idea /126. For theoretical background on the incentives faced by corporations, see: Harry Deangelo and Ronald W Masulis, â€oeoptimal Capital Structure Under Corporate and Personal Taxation, †Journal of Financial Economics 8, no. 1 march 1980: 3†27, http://papers. ssrn. com/abstract=1482270; and also: Robert M Dammon and Lemma W. Senbet, â€oethe Effect of Taxes and Depreciation on Corporate Investment and Financial Leverage, †The Journal of Finance 43, no. 2 june 1988): 357, doi: 10.2307/2328465 127. Jane Gravelle, â€oepractical Reform for a More Efficient Income tax, †Virginia Tax Review 30, no. 2 2010 128. Christoph Spengel, Christina Elschner, and Dieter Endres, Effective Tax Levels at the Industry Level Using the Devereux/Griffith Methodology (On-Demand Report, Mannheim: ZEW-Zentrum fã r Europã¤ische Wirtschaftsforschung/Center for European Economic Research, June 2012 http://citeseerx. ist. psu. edu/viewdoc/download? doi=10.1.1.278. 3739&rep=rep1&type=pdf 129. Taxation Trends in the European union: Data for the EU Member States, Iceland and Norway Luxembourg: European commission-eurostat, 2013 130. Lorin M. Hitt, D. J. Wu, and Xiaoge Zhou, â€oeinvestment in Enterprise resource planning: Business Impact and Productivity Measures, †J. of Management Information systems 19, no. 1 (2002: 71†98 131. Note: United states uses different size classes: 01-09,10-19,20-99,100-499,500+.+OECD Entrepreneurship at a Glance 2013, Table 2. 2 PAGE 39 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 133. S. Fabiani, â€oeict Adoption in Italian Manufacturing: Firm-Level Evidence, †Industrial and Corporate Change 14, no. 2 february 7, 2005: 225†249, doi: 10.1093/icc/dth050 134. Ibid; Nicholas Crafts, Western Europe†s Growth Prospects: An Historical Perspective, CAGE Online Working Paper Series (Competitive Advantage in the Global economy (CAGE), 2012 http://ideas. repec. org/p/cge/warwcg/70. html 135. Luis Garicano, Claire Lelarge, and John Van Reenen, Firm Size Distortions and the Productivity Distribution: Evidence from France (National Bureau of Economic Research, 2013 http://www. nber. org/papers/w18841 136. Valeriano Martã nez San Romã¡n, Marta Bengoa Calvo, and Blanca Sánchez-Robles Rute, â€oeeuropean Union and Trade Integration: Does the Home Bias Puzzle Matter? †Revista de Economã a Mundial, no 32 (2012 137. John Van Reenen et al. The Economic Impact of ICT, SMART (Centre for Economic Performance 2010), http://www. ukn. inet -tr. org. tr/eu/DCR/cstudytheeconomicimpactofictlondonschoolofeconomics. pdf 138. OECD, Science Technology & Industry Scoreboard 2013 (OECD Publishing http://www. oecd. org/sti/scoreboard. htm; Bart van Ark, Vivian Chen, and Kirsten Jäger, â€oeeuropean Productivity Growth Since 2000 and Future Prospects, †International Productivity Monitor 25 (2013 65†83 139. Bart van Ark et al. â€oeeuropean Productivity Growth. †140. Bob Violino, â€oeproductivity Gains: Quantity Plus Quality, †Optimize Magazine 28.feb 2004 http://www. optimizemag. com/issue/028/execreport. htm 141. Laura Abramovsky and Rachel Griffith, ICT, Corporate Restructuring and Productivity (IFS working papers, 2009), http://www. econstor. eu/handle/10419/47484 142. Nicholas Bloom, Raffaella Sadun, and John Van Reenen, â€oeamericans DO IT Better: US Multinationals and the Productivity Miracle, †American Economic Review 102, no. 1 february 2012: 167†201 doi: 10.1257/aer. 102.1.167 143. Nick Bloom and John Van Reenen, â€oemeasuring and Explaining Management Practices Across Firms and Countries, †The Quarterly Journal of Economics 122, no. 4 (2007: 1351†1408 144. Phil Fersht and Jamie Snowdon, State of the Outsourcing Industry 2013: Executive Findings (Hfs Research, April 2013), http://www. kpmginstitutes. com/shared-services-outsourcing -institute/insights/2013/pdf/state-of-outsourcing-2013-exec-findings-hfs. pdf 145. OECD Key ICT Indicators, â€oe10a. Share of ICT value added in the business sector value added, †http://www. oecd. org/sti/broadband/oecdkeyictindicators. htm 146. Ibid 147. See for example the sectoral focus on this European commission website: European commission Enterprise and Industry â€oeict for Competitiveness & Innovation, †(accessed May 16, 2014 http://ec. europa. eu/enterprise/sectors/ict /148. â€oea European strategy for Key Enabling Technologies-A bridge to growth and jobs"Communication adopted on 26 june 2012, http://eur -lex. europa. eu/Lexuriserv/Lexuriserv. do? uri=CELEX: 52012dc0341: EN: NOT 149. Ibrahim Kholilul Rohman, â€oethe Globalization and Stagnation of the ICT Sectors in European Countries: An Input-Output Analysis, †Telecommunications Policy 37, no. 4†5 may 2013: 387†399 doi: 10.1016/j. telpol. 2012.05.001 150. Raquel Ortega-Argilã s, â€oethe Transatlantic Productivity Gap: A Survey of the Main Causes, †Journal of Economic Surveys 26, no. 3 july 2012: 395†419, doi: 10.1111/j. 1467-6419.2012.00725. x, 403 151. Peter Gumbel, â€oefrance Loves Tech, but Not Amazon, or Uber, or Google, or...†Bloombergview February 12, 2014, http://www. bloombergview. com/articles/2014-02-12/france-loves-tech-but-not -amazon-or-uber-or-google-or -152. Miller and Atkinson, â€oeare Robots Taking Our Jobs, or Making Them? †153. Nicholas Oulton, â€oelong Term Implications of the ICT Revolution: Applying the Lessons of Growth Theory and Growth Accounting, †Economic Modelling 29, no. 5 (2012: 1722†1736 156. Bert Colijn, â€oegreen Jobs in Europe and the Increasing Demand for Technical Skills†(The Conference Board Europe, February 2014), http://www. neujobs. eu/publications/working-papers/green-jobs-europe -and-increasing-demand-technical-skills PAGE 40 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 157. Miller and Atkinson, â€oeare Robots Taking Our Jobs, or Making Them? †17†20 158. To see why, consider a country in which average productivity among existing firms increases 2 percent per year for five years. After 5 years, national productivity is up by almost 11 percent. To achieve a similar increase in total productivity through an industry mix strategy, a country would have to replace 20 percent of its jobs with average value-added per worker with jobs having a value-added of over 50 percent more, an unlikely transformation at best. James Manyika et al. How to Compete and Grow: A Sector Guide to Policy (Mckinsey Global Institute, March 2010 http://www. mckinsey. com/insights/economic studies/how to compete and grow 159. Stephen J. Ezell and Robert D. Atkinson, â€oethe Good, The Bad, and The Ugly (and The Self -Destructive) of Innovation Policy: A Policymaker†s Guide to Crafting Effective Innovation Policy†Information technology and Innovation Foundation, October 2010), 70 http://www. itif. org/publications/good-bad-and-ugly-innovation-policy 160. â€oew. T. O. Rules Against European union on Tariffs for Electronics, †New york times, August 16, 2010 http://www. nytimes. com/2010/08/17/business/global/17wto. html? r=1&partner=rss&emc=rss 161. Gurbaxani, Vijay,"The demand for IT capital: an empirical analysis,"Decision Support systems 8, no. 5 December 1992: 387†403. Gilbert Cette and Jimmy Lopez, â€oeict Demand Behaviour: An International Comparison†(working paper, Bank of France, 2009), http://www. banque -france. fr/uploads/tx bdfdocumentstravail/DT252. pdf 162. P. D. Kaushik, and Nirvikar Singh, â€oeinformation Technology and Broad-Based Development Preliminary Lessons from North India, †World Development 32, no. 4 (2004): 594. See also: Jason Dedrick and Kenneth L. Kraemer, â€oeindia's Quest for Self reliance in Information technology: Costs and Benefits of Government Intervention, †(University of California, Irvine: Graduate school of Management and Center for Research on Information technology and Organizations, December 30 1992), http://crito. uci. edu/papers/1993/pac-005. pdf 163. Kenneth L. Kraemer and Jason Dedrick, â€oepayoffs From Investment in Information technology: Lessons from the Asia-Pacific Region†(University of California, Irvine: Graduate school of Management and Center for Research on Information technology and Organizations, April 13, 2001 http://www. crito. uci. edu/git/publications/pdf/pac-037d. pdf 164. Kenneth L. Kraemer and Jason Dedrick, â€oeinformation Technology and Productivity: Results and Policy Implications of Cross-country Studies†(working paper, University of California, Irvine: Center for Research on Information technology and Organizations, February 1999), 25 http://www. crito. uci. edu/itr/publications/pdf/it-productivity-2-99. pdf 165. See for example: Rob Frieden, â€oelessons from Broadband Development in Canada, Japan, Korea and the United states, †Telecommunications Policy 29, no. 8 september 2005: 595†613 doi: 10.1016/j. telpol. 2005.06.002 166. Robert D. Atkinson and Daniel Castro, â€oedigital Quality of life: Understanding the Benefits of the IT Revolution†(Information technology & Innovation Foundation, October 1, 2008 http://www. itif. org/publications/digital-quality-life-understanding-benefits-it-revolution 167. Bradford Delong and Lawrence Summers, â€oeequipment Investment and Economic growth: How Strong is the Nexus? †Brookings Papers on Economic activity 23 (1992; Jonathan Temple and Hans-Joachim Voth, â€oehuman capital, equipment investment, and industrialization, †European Economic Review 42, no 7 (1998: 1343†62; Bart Van Ark†â€oemeasuring the New Economy, An International Comparative Perspective, †Review of Income and Wealth 48 (2002: 1†14; Hitt and Tambe, â€oemeasuring Spillovers from Information technology Investments, †1793; Xavier Sala-i-Martin, â€oe15 Years of New Growth Economics: What Have learnt We? †(keynote address to the fifth annual conference of the Central bank of Chile The Challenges of Economic growth, Santiago, Chile, November 29-30,2001 168. Stephen Ezell and Robert D. Atkinson, â€oehow ITA Expansion Benefits the Chinese and Global Economies†(Information technology and Innovation Foundation, April 2014 http://www. itif. org/publications/how-ita-expansion-benefits-chinese-and-global economies 169. Thomas Baunsgaard and Michael Keen, â€oetax Revenue and (or? Trade Liberalization, †IMF Working Paper, no. 05/112 (June 2005), http://papers. ssrn. com/sol3/papers. cfm? abstract id=887981 170. Oxford Economics, â€oecapturing the ICT Dividend: Using Technology to Drive Productivity and Growth in the EU€ (Oxford Economics/AT&T), accessed October 3, 2013 http://www. corp. att. com/bemoreproductive/docs/capturing the ict dividend. pdf PAGE 41 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 171. â€oecontribution to the Annual Growth Survey 2014: A Single Market for Growth and Jobs: An Analysis of Progress Made and Remaining Obstacles in the Member States†(report from the Commission to the European parliament, the Council, the European central bank, the European Economic and Social Committee, the Committee of Regions and the European Investment Bank, November 2013 http://eur-lex. europa. eu/legal-content/EN/ALL/?/uri=CELEX: 52013dc0785 172. Swedish National Board of Trade, â€oepotential Effects from an EU€ US Free trade Agreement †Sweden in Focus†(Swedish National Board of Trade, 2012 http://www. kommers. se/Documents/In%20english/Reports/Potential%20effects%20from%20an%20e U-US%20free%20trade%20agreement%20-%20sweden%20i%20focus. pdf 173. See for example: â€oesmall companies create 85%of new jobs, †Enterprise and Industry, European Commission website, last modified January 16, 2012, accessed April 18, 2014 http://ec. europa. eu/enterprise/newsroom/cf/itemdetail. cfm? item id=5708 174. Robert D. Atkinson, â€oein Praise of Big Business: Part 1, †Innovation Files (blog), June 22, 2012 http://www. innovationfiles. org/in-praise-of-big-business-part-1 /175. Albert Bravo-Biosca et al. â€oewhat Drives the Dynamics of Business Growth? †OECD Science, Technology and Industry Policy Papers, no. 1 april 4, 2013), http://www. oecd-ilibrary. org/science-and -technology/what-drives-the-dynamics-of-business-growth 5k486qtttq46-en 176. OECD, Entrepreneurship at a Glance (Table 2. 2; Table 2. 6 percent; accessed April 4, 2014), www. oecd -ilibrary. org/sites/entrepreneur aag-2013-en/02/02/index. html 177. Ibid 178. Danny Leung, Cà saire Meh, and Yaz Terajima, â€oefirm Size and Productivity†(working paper, Bank of Canada, 2008), http://www. econstor. eu/handle/10419/53956 179. â€oesmall Is Not Beautiful, †The Economist, March 3, 2012, http://www. economist. com/node/21548945 180. Murat Seker, â€oerigidities in Employment protection and Exporting, †World Development 40, no. 2 2012): ) 238†50 181. â€oefrance-French Lawmakers on Both Sides Unite to Spear Amazon, †France 24, accessed May 23, 2014 http://www. france24. com/en/20131003-national-assembly-amazon-book-law-free-shipping-competition -ump-socialist-lang /182. Daniel Castro, â€oethe False Promise of Data Nationalism†(Information technology and Innovation Foundation, December 2013), http://www2. itif. org/2013-false-promise-data-nationalism. pdf 183. See for example: â€oeprocessing of sensitive personal data in a cloud solution, †Datatilsynet, February 3 2011, http://www. datatilsynet. dk/english/processing-of-sensitive-personal data-in-a-cloud-solution/,and â€oewill Not Let Norwegian Enterprises use Google Apps, †Datatilsynet, January 25, 2012 http://www. datatilsynet. no/English/Publications/cloud-computing/Will not-let-Norwegian-enterprises -of-Google-Apps /184. â€oemerkel Proposes Secure European Web, †BBC News, February 15, 2014 http://www. bbc. com/news/world-europe-26210053 185. For example, Catherine Tucker has found that the EU privacy directive lowered online advertising effectiveness by 65 percent relative to the rest of the world. Catherine Tucker, â€oeeconomics of Privacy†MIT Sloan and NBER, November 15, 2012 http://www. ftc. gov/sites/default/files/documents/public events/fifth-annual-microeconomics -conference/tucker. pdf 186. David Jolly, â€oeeuropean Union Takes Steps Toward Protecting Data, †New york times, March 12, 2014 http://www. nytimes. com/2014/03/13/business/international/european-union-takes-steps-toward -protecting-data. html 187. David Streitfeld, â€oeeuropean Court Lets Users Erase Records on Web, †New york times, May 13, 2014 sec. A 188. Ibid 189. Bauer et al. â€oethe Economic Importance of Getting Data protection Right. †190. Mark Scott, â€oeuber Faces Rebukes in Europe, †Bits (blog) New york times, accessed April 18, 2014 http://bits. blogs. nytimes. com/2014/04/17/uber-faces-rebukes-in-europe /191. â€oepillar I: Digital Single Market †Digital Agenda for Europe, †Enterprise and Industry, European Commission website, accessed May 15, 2014, http://ec. europa. eu/digital-agenda/en/our-goals/pillar-i -digital-single-market; â€oepillar VII: ICT-Enabled Benefits for EU Society †Digital Agenda for Europe, †PAGE 42 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 Enterprise and Industry, European commission website, accessed May 15, 2014 http://ec. europa. eu/digital-agenda/en/our-goals/pillar-vii-ict-enabled-benefits-eu-society PAGE 43 THE INFORMATION TECHNOLOGY & INNOVATION FOUNDATION JUNE 2014 ACKNOWLEDGEMENTS The authors wish to thank Stephen Ezell, ITIF, and Jon Aronoff, The Research Board, for providing input to this report. Any errors or omissions are the authors†alone ABOUT THE AUTHORS Robert Atkinson is the founder and president of the Information technology and Innovation Foundation. He is also author of the books Innovation Economics: The Race for Global Advantage (Yale, 2012) and The Past And Future Of America†s Economy: Long Waves Of Innovation That Power Cycles Of Growth (Edward Elgar 2005), and the State New Economy Index series. Dr. Atkinson received his Ph d. in City and Regional Planning from the University of North carolina at Chapel hill in 1989 Ben Miller is an economic growth policy analyst at the Information technology and Innovation Foundation. He has a Master†s degree in International Development and Economics from Johns Hopkins School of Advanced International Studies ABOUT ITIF The Information technology and Innovation Foundation (ITIF) is a Washington, D c -based think tank at the cutting edge of designing innovation strategies and technology policies to create economic opportunities and improve quality of life in the United states and around the world. Founded in 2006, ITIF is a 501 (c) 3 nonprofit, nonpartisan organization that documents the beneficial role technology plays in our lives and provides pragmatic ideas for improving technology-driven productivity, boosting competitiveness, and meeting today†s global challenges through innovation FOR MORE INFORMATION, CONTACT ITIF BY PHONE AT 202.449.1351, BY EMAIL AT MAIL@ITIF. ORG, ONLINE AT WWW. ITIF. ORG, JOIN ITIF ON LINKEDIN OR FOLLOW ITIF ON TWITTER@ITIFDC AND ON FACEBOOK. COM/INNOVATIONPOLICY EU and U s. Productivity Trends Why Europe Needs to Accelerate Productivity Growth BOX 1: PRODUCTIVITY, INNOVATION AND COMPETITIVENESS ICT and Productivity Growth The Impact of ICT on European PRODUCTIVITY Why Has gained Europe Not As much from ICT Amount of ICT Investment Limited Impacts in the Services Sector Regulation and ICT Adoption Tariffs and Taxes Scale Economies Management Differences What About the ICT-Producing Sector 153f154f What Does need Europe To do Focus on Raising Productivity Focus on Across-the-board Productivity Growth, Particularly Through Greater Use of ICT Actively Encourage Digital Innovation and Transformation of Economic Sectors Use Tax and Trade policy to Spur ICT Investment Create Larger Markets for EU Firms Reduce Preferences for Small Businesses Do No Harm Conclusion Endnotes FOR MORE INFORMATION, CONTACT ITIF BY PHONE AT 202.449.1351, BY EMAIL AT MAIL@ITIF. ORG, ONLINE AT WWW. ITIF. ORG, JOIN ITIF ON LINKEDIN OR FOLLOW ITIF ON TWITTER@ITIFDC AND ON FACEBOOK. COM/INNOVATIONPOLICY

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