ICT sector - value added, employment and R&D

This is the stable Version.

Data extracted in February 2020.

Planned article update: February 2021.

Highlights

In 2017, value added by the EU’s ICT sector was equivalent to 3.6 % of GDP.

Between 2012 and 2017, value added by ICT services in the EU grew each year and increased by 18.3 %, while valued added by ICT manufacturing increased by 22.5 %.

In 2017, the largest ICT services subsector in the EU, computer programming, consultancy and related activities, was more than 10 times the size of the largest ICT manufacturing subsector, electronic components and boards.

Development of value added for the ICT sector, EU, 2012 - 2017

Developments in the information and communication technology (ICT) sector have led to significant changes in the methods of production and patterns of employment across the European Union (EU). Indeed, most economic commentators would agree that ICT plays a considerable role in determining the competitiveness of knowledge and information-based economies. This article provides an overview of economic developments within the EU’s ICT sector; the primary sources of information that are used for this article include structural business statistics (SBS), national accounts and research and development (R & D) statistics.

Full article

The size of the ICT sector as measured by value added

The total value added of the EU’s ICT sector was just over EUR 475 billion in 2017; this estimate is based on summing the latest data available for ICT manufacturing and ICT services (individually) across each of the EU Member States, including previous reference periods for some countries and activities. To give some context to this figure, the ICT sector was equivalent to 3.60 % of the EU’s gross domestic product (GDP) in 2017 (see Figure 1; again, this estimate is based on available information for a limited number of EU Member States — only those for which a complete time series was available for 2012-2017). ICT services accounted for the vast majority of ICT activity, as they were more than 10 times as large as ICT manufacturing when measured in value added terms. The ratio of the value added in ICT manufacturing relative to GDP remained stable between 2012 and 2017 with a peak recorded in 2015. By contrast, with the exception of 2013 and 2014, the ratio of value added from ICT services to GDP grew throughout the period from 2012 to 2017.

Figure 1: Development of value added for the ICT sector, EU, 2012-2017
(% relative to GDP)
Source: Eurostat (sbs_na_sca_r2) and (nama_10_gdp)

Among the EU Member States for which data are available (see Figure 2), the relative weight of the ICT sector — as measured by the ratio of its value added relative to GDP — was highest in Ireland, where ICT services alone generated value added equivalent to 9.3 % of GDP (this figure is for 2016 and only concerns ICT services, not ICT manufacturing). In 2017, the ratio of ICT value added to GDP was also relatively high in Malta (7.7 %), Luxembourg and Cyprus both excluding ICT manufacturing with 5.9 % and 5.4 % respectively. By contrast, value added by the ICT sector was equivalent to less than 3.0 % of GDP in Poland, Italy, Spain, Lithuania and Portugal (presenting together with Spain available information only for ICT services). Greece recorded the lowest ratio with 1.6 %.

Figure 2: Value added for the ICT sector, 2017
(% relative to GDP)
Source: Eurostat (sbs_na_sca_r2) and (nama_10_gdp)

Figure 3 shows the development of value added for the EU’s ICT manufacturing and ICT services sectors during the period 2012-2017; this index is based on information expressed in current price terms and for which coverage is restricted to 14 of the EU Member States. For this group of Member States, the value added for ICT services increased every year during the period 2012-2017, rising overall by 18.3 %. During the same period, the value added for ICT manufacturing grew even stronger by 22.5 %, a rate raising at a faster pace than the corresponding value added for ICT services in every single year between 2012 and 2017.

Figure 3: Development of value added for the ICT sector, EU,2012-2017
(2012 = 100)
Source: Eurostat (sbs_na_sca_r2)

An analysis of ICT manufacturing in the EU-27 (see Figure 4) reveals that it was dominated in 2017 by the manufacture of electronic components and boards, which provided more than half (57.2 %) of the total added value by ICT manufacturing. The next largest share was recorded for the manufacture of communication equipment, which accounted for just over one quarter (25.9 %) of the value added by ICT manufacturing. The manufacture of computers and peripheral equipment (10.9 %) and the manufacture of consumer electronics (6.0 %) followed, while the smallest activity was the manufacture of magnetic and optical media (0.1 %).

Figure 4: Distribution of value added within ICT manufacturing, EU, 2017
(%)
Source: Eurostat (sbs_na_ind_r2)

As noted above, ICT services were approximately 10 times as large as ICT manufacturing in 2017. Across the EU (the information presented excludes Ireland, Luxembourg and Malta and includes 2015 data for Estonia and Slovakia), computer programming, consultancy and related activities accounted for almost half (49.1 %) of the value added that was generated within ICT services in 2017. ICT services were less concentrated than ICT manufacturing, with telecommunications accounting for almost one third (30.3 %) of the value added by ICT services. As such, the two largest activities together accounted for slightly less than four fifths of the value added by ICT services, while each of the remaining activities had single-digit shares (see Figure 5).

Figure 5: Distribution of value added within ICT services, EU, 2017
(%)
Source: Eurostat (sbs_na_dt_r2) and (sbs_na_1a_se_r2)

The three largest EU economies as measured by their share in EU-27 GDP — Germany, France and Italy — were the three biggest contributors, in absolute terms, to total value added in the EU’s ICT sector. An analysis based on the relative contribution of the ICT sector to the non-financial business economy of each EU Member State (see Figure 6) provides a different picture. In 2017, the ICT sector accounted for more than one tenth of the total value added generated within the non-financial business economy in Finland (10.5 %) and Hungary (10.1 %). Shares of at least 9.0 % were also recorded for Bulgaria (9.6 %) and Romania (9.0 %). At the other end of the range, the ICT sector contributed with a 5.8 % share to the added value generated within the Austrian non-financial business economy in 2017, while among the three EFTA countries shown in Figure 6 an even lower share was reported in Norway (5.7 %).

Figure 6 confirms that computer programming, consultancy and related activities together with telecommunications were the two largest ICT activities in each of the EU Member States for which data are available. In 2017, computer programming, consultancy and related activities accounted for more than 4.0 % of the total value added generated within the non-financial business economies of Bulgaria, Finland and Romania. The relative significance of telecommunications was highest in Croatia, where it accounted for 3.6 % (2015 data) of the total value added generated within the non-financial business economy. It is interesting to note that the high share of non-financial business economy value added that was generated within the Hungarian ICT sector could, at least in part, be attributed to a specialisation in ICT manufacturing, which accounted for 2.0 % of the total value added in the Hungarian non-financial business economy. Furthermore, this pattern was repeated for all three of the principal ICT manufacturing subsectors (as shown in Figure 6), with Hungary systematically recording among the highest rates of relative specialisation.

Figure 6: Share of the ICT sector in non-financial business economy value added, 2017
(%)
Source: Eurostat (sbs_na_sca_r2), (sbs_na_ind_r2) , (sbs_na_dt_r2) and (sbs_na_1a_se_r2)

Employment

The EU’s ICT sector employed approximately 5.4 million people in 2017; this estimate is based on summing the latest data available for each of the EU Member States and includes previous reference periods for some countries.

In keeping with the information for value added, there was a continuous increase in the number of persons employed within ICT services across the EU during the period 2012-2017 (see Figure 7 for data coverage); by 2017, this workforce had grown by 22.7 % overall when compared with 2012. By contrast, the number of persons employed in ICT manufacturing fell for two consecutive years (2012-2014) followed by three years of relative stability; between 2012 and 2017, there was an overall reduction of 8 % in the number of persons employed in the EU’s ICT manufacturing workforce.

Figure 7: Employment in the ICT sector, EU, 2012-2017
(2012 = 100)
Source: Eurostat (sbs_na_sca_r2)

Aggregating the data for the EU Member States for which a complete set of data is available (see Figure 8 for more information on the coverage), the ICT sector provided work to 4.5 % of the non-financial business economy workforce in 2017. In 2017, the ICT sector accounted for 6.4 % of the non-financial business economy workforce in Finland, while shares within the range of 5.0 % to 6.0 % were recorded in 2017 in Hungary, France, Latvia and Romania. By contrast, the Greek ICT sector made the smallest contribution to its non-financial business economy workforce, at 2.7 %.

Figure 8 shows that computer programming, consultancy and related activities was the principal employer within the EU’s ICT sector in 2017, accounting for more than half of the ICT workforce. Computer programming, consultancy and related activities had the largest share of the ICT workforce in all of the EU Member States for which data are available in 2017. The relative share of computer programming, consultancy and related activities in the total ICT workforce reached almost three out of every five in Belgium (63.5 %), Germany (61.8 %) and Finland (61.2 %), while computer programming, consultancy and related activities accounted for more than half of the ICT workforce in six additional Member States: Bulgaria, Slovenia, Poland, France, Lithuania and Czechia; this was also the case in Norway and Switzerland.

In Hungary, ICT manufacturing had a relatively high share of non-financial business economy employment. In 2017, some 0.6 % of the non-financial business economy workforce in Hungary was employed in the manufacture of electronic components and boards and a similar share (0.5 %) was recorded for the manufacture of communication equipment, while 0.3 % of the Hungarian non-financial business economy workforce was employed in the manufacture of computers and peripheral equipment; with the exception of the manufacture of communication equipment in Finland (0.6 %;), these were the highest shares of ICT manufacturing recorded in any of the EU Member States for which data are available. Furthermore, there was a marked reduction in the number of persons employed in the manufacturing communication equipment in Finland. Their number fell from more than 20 000 persons in 2012 to over 8 800 by 2017; in relative terms this equates to a fall from 1.4 % of the non-financial business economy workforce in 2012 to 0.9 % in 2015 and 0.6 % in 2017.

Figure 8: Share of the ICT sector in non-financial business economy employment, 2017
(%)
Source: Eurostat (sbs_na_sca_r2), (sbs_na_ind_r2), (sbs_na_dt_r2) and (sbs_na_1a_se_r2)

Apparent labour productivity

Apparent labour productivity in the EU’s ICT sector was estimated to be almost EUR 78 800 per person employed in 2017 (see Figure 9 for more information on the coverage). Among the EU Member States, this ratio ranged from a high of EUR 117 600 per person employed in Belgium and upwards of EUR 100 000 in Finland and France, down to less than EUR 30 000 in Romania and Bulgaria.

Figure 9: Apparent labour productivity in the ICT sector, EU, 2017
(EUR thousand per person employed)
Source: Eurostat (sbs_na_sca_r2)

There are considerable differences in productivity levels between the individual EU Member States. Many of these may be of a structural nature and therefore relevant to any if not all activities, rather than being specific to the ICT sector. It can therefore be more revealing to analyse apparent labour productivity based on a ratio comparing this indicator for the ICT sector with an average value for the whole of the non-financial business economy. In 2017, the apparent labour productivity of the EU’s ICT sector (see Figure 10 for more information on the coverage) was 65.2 % higher than that recorded for the non-financial business economy as a whole.

This pattern was repeated in each of the EU Member States for which data are available, with apparent labour productivity consistently at a higher level in the ICT sector than for the non-financial business economy. In 2017, apparent labour productivity for the ICT sector in Greece and Bulgaria was more than twice as high as the average recorded for the non-financial business economy. At the other end of the range, the ICT sector recorded a level of apparent labour productivity that was 40 % to 50 % higher than the non-financial business economy average in Slovenia, Poland, Austria and Estonia. An even lower ratio was recorded in Norway (11 % higher than the non-financial business economy average).

A comparison between 2012 and 2017 reveals that the gap between apparent labour productivity ratios for the ICT sector and for the whole of the non-financial business economy was generally narrowing. There were only two exceptions to this rule among the EU Member States, namely, Finland and Austria where the ratio increased (there is a break in series for the former); France was only marginally affected, showing an almost constant ratio over time. By contrast, both of the EFTA countries shown in Figure 10 recorded an increase of this ratio (Switzerland with 2016 instead of 2017 data) as the apparent labour productivity of the ICT sector in these two countries rose at a faster rate than the gains recorded for the whole of the non-financial business economy.

Figure 10: Ratio of apparent labour productivity for the ICT sector compared with the non-financial business economy, 2012 and 2017
(non-financial business economy = 100)
Source: Eurostat (sbs_na_sca_r2)

Figure 11 provides a different perspective by detailing average personnel costs in the ICT sector compared with those for the whole of the non-financial business economy. In 2017, the average costs of a person employed working in the EU’s ICT sector (see Figure 11 for more information on the coverage) was 57.7 % higher than the average for someone working in the EU’s non-financial business economy.

This pattern was repeated in each of the EU Member States. In 2017, average personnel costs in the ICT sectors of Bulgaria and Greece were at least twice as high as in their respective non-financial business economies. By contrast, the difference was much lower in Belgium, Finland, France, Malta, Slovenia and Italy where average personnel costs per person employed for people working in the ICT sector were no more than 50 % higher than for the whole of the non-financial business economy.

A comparison between 2012 and 2017 reveals that the gap between average personnel costs for the EU’s ICT sector and the whole of the EU’s non-financial business economy was closing somewhat. The countries to report a closing of this gap at the fastest pace were Belgium (11.4 %), Latvia (8.5 %), Lithuania (6.4 %), Czechia (5.8 %) and Croatia (5.6 %). By contrast, the gap in average personnel costs between the ICT sector and the non-financial business economy average widened in seven of the 19 EU Member States for which data are available; the gap widened most rapidly in Greece (in which 2017 data is provisional), Estonia and Poland.

Figure 11: Ratio of average personnel costs for the ICT sector compared with the non-financial business economy, 2012 and 2017
(non-financial business economy = 100)
Source: Eurostat (sbs_na_sca_r2)

Research and development (R & D)

The main contributors to the total value of business enterprise R & D expenditure (BERD) in the EU’s ICT sector were the three largest contributors to EU-27 GDP — namely, Germany, France and Italy. A relatively large contribution per inhabitant was also made by Finland; although only partial information is available, it is also likely that Sweden and Ireland also made considerable contributions.

Figure 12 provides an alternative analysis, which takes account of the differences in country sizes; it presents the ICT sector’s share of business enterprise R & D expenditure. In 2017, this ratio peaked in Cyprus (2015 data for ICT manufacturing) and Malta, where the ICT sector accounted for more than half (61.8 % and 52.1 % respectively) of all business enterprise expenditure on R & D. This was considerably higher than in any of the other EU Member States, as the next highest proportions were recorded in Estonia (44.7 %), Finland (42.7 %; 2015 data for ICT manufacturing, 2016 data for ICT services), and Bulgaria (31.2 %; ICT services only, data for 2016).

In approximately one third of the EU Member States for which data are available (see Figure 12 for more information on the coverage), the ICT sector accounted for between 10 % and 20 % of business enterprise expenditure on R & D, while in the remainder, this share was below 10 %; with the exception of Slovenia, Denmark and Germany, these lower shares may be explained, at least in part, by missing information, as was the case for Hungary (no data for ICT manufacturing) or Austria, Ireland, Portugal and Poland (no data for ICT services).

Figure 12: Share of the ICT sector in business enterprise expenditure on research and development, 2017
(%)
Source: Eurostat (isoc_bde15ar2)

A similar analysis is presented in Figure 13, which shows the share of the ICT sector in total R & D personnel. In 2017, this proportion peaked at 49.9 % in Malta, while high shares were also recorded in Estonia (43.7 %), Cyprus and Finland (43.5 % and 43.1 %; 2015 data in both cases for ICT manufacturing) and Ireland (36.0 %). The share of the ICT sector in R & D personnel was within the range of 20 % to 30 % in Croatia, Bulgaria (with 2015 data for ICT manufacturing) and Czechia. The remaining half of EU Member States, for which data are available, present shares below 20 %. These relatively low shares may reflect missing information, as was the case for Hungary (no data for ICT manufacturing) and Austria, Portugal, the Netherlands and Poland (no data for ICT services).

Figure 13: Share of the ICT sector in R & D personnel, 2017
(%)
Source: Eurostat (isoc_ic_biper2)

Data sources

The ICT sector is delineated according to a definition first published by the OECD in 2006; see the OECD Guide to Measuring the Information Society (2011) for more details. It provides, among others, a classification of those activities that produce ICT goods and services, following the statistical classification of economic activities, NACE Rev. 2. At an aggregated level, information on the ICT sector may be analysed for the total ICT sector, ICT manufacturing and ICT services; definitions for these sectors are provided below.

The primary data sources that are used in this article include structural business statistics (SBS), national accounts and research and development (R & D) statistics. As ICT sector data are derived from these sources, the statistical concepts and definitions employed for the ICT sector are based on these primary sources of information. This approach has the virtue of ensuring cost-efficient and high-quality data collection. However, it also results in some limitations, such as restrictions when considering the introduction/design of new indicators or a lack of control over the timing of new data releases. For the most detailed methodological information and metadata, users should refer to the information available for the three primary sources of data.

Structural business statistics (SBS)

Structural business statistics (SBS) describe the structure, activity, competitiveness and performance of economic activities within the business economy; these statistics are available at a much more detailed level than national accounts, covering several hundred different economic activities. The data concerning structural business statistics are provided in accordance with Commission Regulation (EU) No 446/2014 amending Regulation (EC) No 295/2008.

SBS cover the business economy, which includes industry and construction, trade and services. Because of their specific nature and the limited availability of most types of standard business statistics, financial services are included in SBS but treated separately. As such, the principal aggregate for analysis is the non-financial business economy. SBS do not cover agriculture, forestry and fishing, nor public administration and (to a large extent) non-market services such as education or health. To date, this is the only primary source that provides information pertaining to the economic activity of the aggregated ICT sector, ICT manufacturing and ICT services.

National accounts

National accounts provide statistics on the structure and development of economies. The European System of national and regional Accounts (ESA 2010) is the latest internationally compatible accounting framework used within the EU. It provides a systematic and detailed description of the economy; its legal basis is Regulation (EU) No 549/2013 on the European system of national and regional accounts in the European Union.

National accounts describe and analyse the economic interactions (transactions) within an economy; they may be used to observe economic activity within the domestic territory. The most well-known indicator from national accounts is gross domestic product (GDP), which provides a measure of the overall size of a country’s economy, measured by the sum of the gross value added of all resident institutional units engaged in production, plus any taxes on products and minus any subsidies on products.

Research and development (R & D)

The main concepts and definitions used in research and development (R & D) statistics are presented in the Frascati Manual; it provides guidelines for collecting and reporting data on R & D. The manual also provides a definition of R & D which comprises creative and systematic work undertaken in order to increase the stock of knowledge — including knowledge of humankind, culture and society — and to devise new applications of available knowledge.

From 2012 onwards, the legal basis for the collection of R & D statistics is provided for by Commission Implementing Regulation (EU) No 995/2012 laying down detailed rules for the implementation of Decision No 1608/2003/EC concerning the production and development of Community statistics on science and technology.

The business enterprise sector generally accounts for the largest share of R & D expenditure and personnel in most industrialised economies. Intramural expenditures cover all current expenditures on R & D plus gross fixed capital expenditures for R & D performed within a statistical unit or economic sector during a specific reference period, whatever the source of funds; also included is money spent outside the unit or sector but in support of intramural R & D.

Definitions employed to monitor indicators for the ICT sector

Total ICT sector, ICT manufacturing and ICT services are based on an OECD definition (2006). Using the statistical classification of economic activities, NACE Rev. 2, Eurostat has applied this definition to data from reference year 2008 onwards; prior to this date, an alternative definition was employed (based on NACE Rev 1.1). As a result of this break in series, users are advised not to combine the two different data collections.

The ICT sector is defined in terms of the following NACE Rev. 2 activities:

Total ICT sector: NACE (Groups and Divisions) 26.1-26.4 + 26.8 + 46.5 + 58.2 + 61 + 62 + 63.1 + 95.1
ICT manufacturing: NACE Groups 26.1-26.4 + 26.8
Manufacture of electronic components and boards: NACE Group 26.1
Manufacture of computers and peripheral equipment: NACE Group 26.2
Manufacture of communication equipment: NACE Group 26.3
Manufacture of consumer electronics: NACE Group 26.4
Manufacture of magnetic and optical media: NACE Group 26.8
ICT services: NACE (Groups and Divisions) 46.5 + 58.2 + 61 + 62 + 63.1 + 95.1
Wholesale of information and communication equipment: NACE Group 46.5
Software publishing: NACE Group 58.2
Telecommunications: NACE Division 61
Computer programming, consultancy and related activities: NACE Division 62
Data processing, hosting and related activities; web portals: NACE Group 63.1
Repair of computers and communication equipment: NACE Group 95.1

Indicator definitions

Gross value added at factor costs: can be calculated either as the gross operating surplus (a measure of profit) plus personnel costs, or alternatively, from turnover, plus capitalised production, plus other operating income, plus or minus the changes in stocks, minus the purchases of goods and services, minus other taxes on products which are linked to turnover but not deductible, minus the duties and taxes linked to production.

Number of persons employed: is defined as the total number of persons who work in the observation unit (inclusive of working proprietors, partners working regularly in the unit and unpaid family workers), as well as persons who work outside the unit who belong to it and are paid by it (e.g. sales representatives, delivery personnel, repair and maintenance teams). It excludes manpower supplied to the unit by other enterprises, persons carrying out repair and maintenance work in the enquiry unit on behalf of other enterprises, as well as those on compulsory military service.

Apparent labour productivity: is defined as the value added at factor costs divided by the number of persons employed. This ratio measures how efficiently labour input is combined with other factors of production and how it is used in the production process.

Average personnel costs: are defined as total personnel costs divided by the number of employed persons (persons who are paid and have an employment contract). In turn, total personnel costs are defined as the total remuneration, in cash or in kind, payable by an employer to an employed person (regular and temporary employees, as well as home-workers) in return for work done by the latter during the reference period. An employed person is a person who works for an employer on the basis of a contract of employment and receives compensation in the form of wages, salaries, fees, gratuities, piecework pay or remuneration in kind.

R & D personnel: includes all persons engaged directly in R & D in a statistical unit, whether employed by the statistical unit or external contributors fully integrated into the statistical unit's R & D activities, as well as those providing direct services for the R & D activities ( such as managers, administrators and clerical staff); those providing an indirect support or ancillary services (such as canteen, maintenance, administrative or security staff) should be excluded.

Context

Digitalisation and automation can generate new business opportunities through the development of new production processes, new products and new markets. Indeed, the impact of ICT has generally resulted in increased productivity and efficiency, as well as in a range of possibilities for more flexible working practices.

ICT plays a strategic role in promoting growth and competitiveness across European economies. A developed ICT sector is essential for capitalising on digitalisation, keeping up with competitors in globalised markets, and establishing Europe’s technological leadership. Awareness of the importance of the ICT sector is reflected in the political guidelines of the European Commission A Europe fit for the digital age, stressing the need for Europe to lead the transition to a healthy planet together with a new digital world.

This new EU digital strategy, empowering people with a new generation of technologies, aims to make this transformation work for people and businesses, with an increased use of safe artificial intelligence and data. The digital strategy is built around three objectives:

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ICT sector (isoc_se)
Percentage of the ICT sector in GDP (isoc_bde15ag)
Business expenditure on R&D (BERD) in ICT sector as % of total R&D expenditure by NACE Rev. 2 activity (isoc_bde15ar2)
R&D personnel in ICT sector as % of total R&D personnel by NACE Rev. 2 activity (isoc_ic_biper2)
SBS - main indicators (sbs_na)
Annual enterprise statistics for special aggregates of activities (NACE Rev. 2) (sbs_na_sca_r2)
SBS - industry and construction (sbs_ind_co)
Annual detailed enterprise statistics - industry and construction (sbs_na_ind)
SBS - trade
Annual detailed enterprise statistics - trade (sbs_na_dt)
SBS - services
Annual detailed enterprise statistics - services (sbs_na_serv)
Annual national accounts (nama10)
Main GDP aggregates (nama_10_ma)
GDP and main components (output, expenditure and income) (nama_10_gdp)

Eurostat

OECD