IT Enabling Indian Firms: The Importance of IT Outsourcing Companies

  • Grace KiteEmail author


The literature on the role of information technology outsourcing (ITO) only rarely considers purchasers in developing countries. This is an important omission and even more so in India, which has an IT outsourcing industry that is well placed to bring world-class applications of the technology to domestic firms. This chapter assesses the sector’s role in India using evidence from econometric analysis covering 10,100 firms over 5 years as well as qualitative responses from 29 in-depth interviews. The econometrics shows that there is a strong positive impact of IT outsourcing on output and productivity, and that the effect is bigger than that achieved by buying hardware and software alone. Comparing with studies from around the world also reveals that the effect of ITO in India is typically larger than firms in developed countries achieve with investments into IT—so that ITO facilitates catching up. The qualitative evidence helps to understand why these strong effects occur. It suggests that ITO companies are engaging in a conscious process of learning in both developed markets and India, and that in doing so, they bring innovations to India and assist in adapting them to the local context.


Information technology Outsourcing Software Productivity Catching up Learning 



With thanks to Simon Commander, Chrisanti Avgerou, Fredrik Tell, Ben Groom, Duo Qin, Arlene Luck and participants at Economics of ICTs (Information and Communication Technologies): Transformation, Digital Divides and Development, Delhi School of Economics 2018.


  1. Abramovitz, M. (1986). Catching up, forging ahead, and falling behind. Journal of Economic History, 46, 386–406.Google Scholar
  2. Arvanitis, S., & Loukis, E. N. (2013). Outsourcing and firm performance—A comparative study of Swiss and Greek firms. Industrial and Corporate Change, 22(3), 771–806.Google Scholar
  3. Baily, N., & Lawrence, R. (2001). Do we have a new e-conomy? The american economic review. Papers and Proceedings of the Hundred Thirteenth Annual Meeting of the American Economic Association, 91(2), 308–312.Google Scholar
  4. Banga, R., & Goldar, B. (2004). Contribution of services to output growth and productivity in Indian manufacturing: Pre and post reforms. New-Delhi: Indian Council for Research on International Economic Relations.Google Scholar
  5. Blundell, R., & Bond, S. (1998). GMM estimation with persistent panel data: An application to production functions. Institute of Fiscal Studies, Working Paper, no. W99/4Google Scholar
  6. Bresnahan, T., Brynjolfsson, E., & Hitt, L. (2002). Information technology, workplace organization, and the demand for skilled labor: Firm-level evidence. Quarterly Journal of Economics, 117(1), 339–376.CrossRefGoogle Scholar
  7. Brynjolfsson, E., & Yang, S. (1996). Information technology and productivity: A review of the literature advances in computers. Academic Press, 43, 179–214.Google Scholar
  8. CMIE, (2009). PROWESS database, November 2009 Available Online:
  9. Cohen, W. M., & Levinthal, D. A. (1990). Absorptive capacity: A new perspective on learning and innovation. Administrative Science Quarterly, 35, 128–152.CrossRefGoogle Scholar
  10. Colecchia, A. (2001). The impact of information and communications technologies on output growth: Issues and preliminary findings. In OECD directorate for science, technology, and industry working paper no. 11. Paris: Organization for Economic Cooperation and Development.Google Scholar
  11. Commander, S., Harrison, R., & Menezes-Filho, N. (2011, May). ICT and productivity in developing countries: New firm-level evidence from Brazil and India. The Review of Economics and Statistics, 93(2), 528–541.Google Scholar
  12. Crafts, N. (2001). The solow productivity paradox in historical perspective. In Long-Term Trends in the World Economy-Conference Proceedings. University of Copenhagen.Google Scholar
  13. Czarnitzki, D., & Spielkamp, A. (2003). Business services in Germany: Bridges for innovation. The Service Industries Journal, 23(2), 1–30.CrossRefGoogle Scholar
  14. Daveri, F. (2001). Information technology and growth in Europe. Unpublished. Parma: University of Parma.Google Scholar
  15. den Hertog, P. (2000). Knowledge-intensive business services as co-producers of innovation. International Journal of Innovation Management, 4, 491–528.CrossRefGoogle Scholar
  16. Doloreux, D., & Shearmur, R. (2012). Collaboration, information and the geography of innovation in knowledge intensive business services. Journal of Economic Geography, 12, 79–105.CrossRefGoogle Scholar
  17. Gago, D., & Rubalcaba, L. (2007). Innovation and ICT in service firms: Towards a multidimensional approach for impact assessment, Journal of Evolutionary Economics, 17, 25–44.Google Scholar
  18. Guerrieri, P., Maggi B., Meliciani V., & Padoan, P. C. (2005). Technology diffusion, services, and endogenous growth in Europe: Is the lisbon strategy useful? In IMF working paper WP/05/103, IMF Washington.Google Scholar
  19. Hanna, N. (1994). Exploring information technology for development: A case study of India. In World Bank discussion paper no. 246. Washington DC: The World Bank.Google Scholar
  20. International Monetary Fund, (2001). World economic outlook: The information technology revolution, Chap. 3 (pp. 103–142). Available online
  21. Jeong, K., Jeong, H., & Shin, I. (2002). The economic impact of information and communication technology in Korea. In M. Pohjola (Ed.), Information technology, productivity, and economic growth: International evidence and implications for economic development. UNU/WIDER studies in development economics, Oxford University Press.Google Scholar
  22. Jorgenson, D., & Stiroh, K. (1995). Computers and growth. Economics of Innovation and New Technology, 3(3 & 4), 295–316.CrossRefGoogle Scholar
  23. Jorgensen, D., Ho, M., & Stiroh, K. (2007). A retrospective look at the U.S. productivity growth resurgence (Federal Reserve Bank of New York Staff Reports No. 277).Google Scholar
  24. Kite, G. (2011). Linkedin: The software and IT services sector in India’s economic development, 1980 to 2011 (PhD thesis). SOAS University of London.Google Scholar
  25. Kite, G. (2013, July 27). The Indian software and information technology services sector: A teacher to treasure, economic and political weekly, 48(30).Google Scholar
  26. Kite, G. (2018). A conduit for knowledge? Demonstrating the strength of technology improvements in Indian firms that buy outsourced information technology. Journal of Evolutionary Economics, 28, 225–243.CrossRefGoogle Scholar
  27. Lee, S., Xiang, J., & Kim, J. (2011). Information technology and productivity: Empirical evidence from the Chinese electronics industry. Information & Management, 48(2011), 79–87.CrossRefGoogle Scholar
  28. Levina, N., & Ross, J. (2003, September). MIS Quarterly, 27(3), 331–364.Google Scholar
  29. Mody, A., & Dahlman, C. (1992). Performance and potential of information technology: An international perspective. World Development, 20(12), 1703–1719.CrossRefGoogle Scholar
  30. Muller, E., & Zenker, A. (2001). Business services as actors of knowledge transformation: The role of KIBS in regional and national innovation systems. Research Policy, 30(9), 1501–1516.CrossRefGoogle Scholar
  31. NASSCOM & Delloite. (2008). Indian IT/ITES industry: Impacting economy and society 2007–08. Teen Murti Marg, Chanakyapuri, New Delhi 110021, India: NASSCOM foundation. Available online August 1, 2009
  32. Oliner, S. D., & Sichel, D. E. (1994). Computers and output growth revisited: How big is the puzzle? Brookings Papers on Economic Activity, 1994(2), 273–334.Google Scholar
  33. Oliner, S. D., & Sichel, D. E. (2000). The resurgence of growth in the late 1990s: Is information technology the story? Journal of Economic Perspectives, 14, 3–22.Google Scholar
  34. Olsen. (2006). Productivity impacts of offshoring and outsourcing: A review. STI working paper, OECD, Directorate for Science, Technology and Industry (STI), vol 2006/1.Google Scholar
  35. Perez, C. (1985). Microelectronics, long waves and world structural change: New perspectives for developing countries. World Development, 13(3), 441–463.CrossRefGoogle Scholar
  36. Reserve Bank of India. (2009). Handbook of statistics on Indian economy. Available online December 21, 2009
  37. Shearmur, R., & Doloreux, D. (2013). Innovation and knowledge-intensive business service: The contribution of knowledge-intensive business service to innovation in manufacturing establishments. Economics of Innovation and New Technology, 22, 751–774.CrossRefGoogle Scholar
  38. Sichel, D. (1997). Computers and aggregate economic growth. Business Economics, 34(2), 18–24.Google Scholar
  39. Stiroh, K. (2002). Reassessing the role of IT in the production function: A meta analysis. Federal Reserve Bank of New York, mimeo.Google Scholar
  40. Tether, & Hipp. (2002). Knowledge intensive, technical and other services: patterns of competitiveness and innovation compared. Technology Analysis & Strategic Management, 14(2), 163–182.Google Scholar
  41. Tether, B. S., & Tajar, A. (2008). The organisational-cooperation mode of innovation and its prominence amongst European service firms. Research Policy, 37(4), 720–739.CrossRefGoogle Scholar
  42. Thompson, S., Teo, A., & Bhattacherjee, A. (2014). Knowledge transfer and utilization in IT outsourcing partnerships: A preliminary model of antecedents and outcomes. Information & Management, 51, 177–186.Google Scholar
  43. Wood, P. (2005). A service-informed approach to regional innovation—Or adaptation? The Service Industries Journal, 25(4), 429–445.CrossRefGoogle Scholar
  44. Wood, P. (2006). The regional significance of knowledge-intensive services in Europe: KISINN and after. Innovation: The European Journal of Social Science Research, 19(1), 51–66.Google Scholar
  45. World Bank. (2010). World development indicators (2010). Washington, DC: World Bank.Google Scholar

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© Springer Nature Singapore Pte Ltd. 2020

Authors and Affiliations

  1. 1.Gracious EconomicsLondonUK

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