CONTACT US
Share: Share on Facebook Share on Twitter Share on LinkedIn I recommend visiting cushmanwakefield.com to read:%0A%0A {0} %0A%0A {1}
tech cities tech cities

Tech Cities: The Global Intersection of Talent and Real Estate

WATCH WEBINAR HERE

With a significant growth forecast for the global tech sector in the next 10 years, the evolution of tech cities around the world as hubs of tech talent and suitable commercial real estate will continue. In this report we assess how tech cities are competing for business across key talent, real estate, and business environment metrics.
 

 

Key Takeaways

      
  • 45 top tech markets were identified based on 14 criteria, across Talent, Real Estate, and Business Environment metrics.
  • Talent is a critical factor for tech companies when determining location, with the tight labor market increasing competition for the right talent.
  • Hybrid work and historical inflation are major considerations when making Real Estate decisions.
  • National and local business environments will continue to play a strong role in tech companies’ location selection.

 

Table of Contents

Key Evaluation Metrics  |  Top Tech Cities  |  Talent  |  Real Estate  |  Business Environment

 

Introduction

For the first two years of the pandemic, the tech sector shone as a resilient and rising sector for talent in the post-pandemic world. Despite this, the first half of 2022 was a difficult period for many companies, and the tech sector has not been immune to these challenges. This has included declines in stock values, hiring freezes and layoff announcements.

The mid-2022 turbulence is part of normal cyclical downturns that impact financial markets and specific industries. We expect the tech sector to continue to be a driving force for economies around the globe. The demand for tech talent—even if some job losses occur—will not abate anytime soon. Because of this, the evolution of cities as clusters for tech talent and tech occupiers will remain critical to commercial real estate (CRE) decision-makers.

On a global scale, tech is a larger portion of major economies —and commercial real estate—than ever before. Over the past decade, global technology employment increased substantially. Across the largest 15 global economies, information and communication employment increased by nearly 23 million workers, and it is forecast to grow by 17%, adding another 12 million workers over the next 10 years.1

In Q1 2022, 3.3% of all jobs in the top 15 global economies were in the information and communication sector.

It is an even greater share in countries such as China, Ireland, Singapore, Finland, the UK and Japan. The share is forecasted to increase over the next decade to 3.7%, led by 100+ bps increases in share in current stalwarts—Ireland, China and Singapore—along with growing Eastern European countries, such as Romania and Hungary.2


The tech sector was resilient to the initial effects of the pandemic, rebounding quickly and outpacing most other sectors. Office-using and tech employment fully recovered to pre-pandemic levels within two years in most major economies. For example, in Q1 2022 the European Union had 7.4% more information and communication workers than in Q1 20204 and the growth is likely to continue.

As of May 2022, there were 685,000 job postings for tech occupations, which represent a 75% increase over the 394,000 postings in February 2020.5 As the global economy continues to shift, tech talent will remain a critical driver of growth and a key component of how the CRE sector will evolve through the 2020s.

Measuring the Evolution of Tech Cities


The concept of ranking tech cities can prove difficult because each company’s growth strategy differs, based on current locations, specific skills and labor needs, location of customers, and the present and future state of countless financial and business priorities.

For example, Paris has more than twice the number of available technology workers as Chicago, but less than half as many computer programmers; a company looking to deepen their programming depth may lean toward a new location in Chicago, while another organization needing to enhance its data science and analyst capabilities might find Paris more attractive. Regardless of location, the cost of workers needs to be balanced with any discussion of depth of the talent pool.

Location strategy is always driven by a combination of these key factors: talent, office real estate, the local environment for businesses and employees, and all the related costs.

All that said, in this report, we identify key metrics that will be important to most—if not all—tech companies and illuminate the current leading tech hubs as well as the up-and-coming opportune locations that companies could consider for future expansion. Every expansion or relocation decision is nuanced and full of company- and time-specific criteria, however some key factors remain consistent.

Key Evaluation Metrics

In the 10 largest global economies, there are now 2.7 million more office workers than there were at the beginning of the pandemic, just two years ago. Finding and keeping the best people in a tight labor market is a challenge, and with more companies in other sectors needing increasing amounts of technological skill, the competition will only grow.

We have entered a world of increased workforce agility, and occupiers are redefining how and when employees utilize the office to optimize productivity, innovation and work-life balance. With increased flexibility, the quality and location of office space becomes more important. It is critical to identify markets with dynamic ecosystems of tech companies and employees, as well as ample availability of high-quality office space.

High-skill talent has always had some level of choice over where to live and work, but increased workplace flexibility will allow more people to choose cities that provide attractive living environments. National and local leadership, governance and infrastructure will be critical components in where technology workers and businesses locate.

Overarching all of this are economics. Efficiency and cost containment are always important, but maybe even more so coming out of a pandemic, with historical inflation and growing concerns of a potential double-dip recession. The number-one cost for technology companies is talent. Occupiers are looking for opportunities to save on the leasing and build-out of high-quality office space that will serve as innovation and collaboration centers for employees.


Cushman & Wakefield selected more than 115 different tech cities across the world to evaluate the talent, real estate and business environment. The top tech hubs in each global region are identified by aggregating 14 factors, weighing each according to perceived importance for tech companies’ market selection criteria, and then validating through industry experts and rigorous model testing

>>Click for more information on our complete Methodology and Endnotes.

Top Tech Cities by Global Region

The result is the following list of top markets in each region, sorted alphabetically:

 

This is one method to identify top tech hubs but is not the definitive ranking for all companies or real estate investors. Throughout the report, you can sort global cities by various talent, real estate and environment metrics utilized for this analysis.

Global Tech Cities Market Summaries
Want to know more about each featured top tech city?
VIEW ALL MARKET SUMMARIES

Talent

Talent remains a critical resource through which tech occupiers evaluate potential locations. Evaluation of markets can be segmented into key national and city-level factors that are critical for tech employers, wherever they may look to expand.

Labor data availability varies across regions and countries. To create an apples-to-apples global comparison, talent depth and competitiveness ratings were based on three occupations: IT network professionals, analysts and data scientists, and computer programmers. In cases where more robust data is available, local markets may contain statistics related to a broader occupation set. If not noted otherwise, labor data is based on these three occupations.

>>Talent Pool Depth
Greater numbers of computer programmers, IT network professionals, and analysts and data scientists provide a key catalyst for continuous growth. 

>>Talent Competitiveness
Higher ratios of candidates-to-job-postings represent greater supply to fill open roles and more limited competition from other companies in the market. 
>>Talent Pool Cost
Higher salaries for tech workforce can impede employers from filling valuable positions—payroll represents the top expense for most tech companies. 
     Diversity of Workforce
As technology occupiers seek to increase inclusivity and equity, it becomes vital to access markets with more diverse talent pools. 
>>Talent Pool Quality
Markets with universities and research institutions generate more educated workforces with deeper skillsets. 
  Population Growth
Dynamic markets with forecasted growth offer long-term opportunity for occupiers.
The New Wave in the War for Talent: Choice
The war for talent between tech companies isn’t new. For almost a decade, technology companies have battled to attract and retain the most innovative talent. In today’s “Great Resignation” era, tech companies are now encountering the latest evolution in this battle.
Read more

Talent Pool Depth

Larger markets usually benefit from greater talent pool depth, but it is dependent upon the sector mix in a local economy and the share of applicable tech professions.

APAC
APAC continues to be led by Tokyo and Beijing, followed by Shanghai and Bengaluru. However, Bengaluru is heavily weighted toward computer programming talent and Shanghai is more balanced.

Americas
Unsurprisingly, traditional U.S. tech hubs, such as the San Francisco Bay Area and New York City excel. São Paulo, Toronto and Los Angeles are other Americas markets with substantial talent pool.

EMEA
London’s talent pool depth remains dominant in Europe, with Paris coming in second.

The occupation mix varies across markets. For example:

   
  • Mexico City, Madrid and Kuala Lumpur are weighted to a greater degree toward IT network professionals.
  • Computer programmers make up a larger proportion of talent in Seattle, San Francisco Bay Area, Tel Aviv and several India markets (e.g., Bengaluru, Chennai, Hyderabad).
  • Analysts and data scientists are a bigger share of the talent pool in markets such as Tokyo, Paris and São Paulo.

Use the map below to toggle between key drivers that matter most to tech occupiers when making location decisions. Available tech talent? Cost of that talent? Or price of office space? Find the markets that align with each driver.

 

Talent Cost

Data scientists are consistently paid the highest annual salary, followed by IT network engineers and then computer programmers.

  
  • Across 100 global markets, data scientists on average are paid $90,087. The average pay is above $150,000 in the San Francisco Bay Area and Copenhagen.

  • The average global salary for IT network engineers is $81,448. It tops $110,000 in 16 U.S. markets as well as Tokyo, Copenhagen and London.

  • Programmers average $73,281 globally. Average pay is above $100,000 in Tokyo and four U.S. gateway markets.

The San Francisco Bay Area continues to live up to its reputation as the highest cost market for tech talent.

AMERICAS
Markets in the U.S. Sun Belt offer savings compared to major U.S. tech hubs, as do Canadian markets. For example, the weighted average salary in Toronto is two-thirds of the San Francisco Bay Area and 20% below Seattle.

EMEA
European talent costs are clustered without sizable differences, though Copenhagen, London and Amsterdam are the most expensive. The gap between pay for data scientists and the other two professions is larger in major German markets, such as Munich, Hamburg and Berlin.

APAC
South Asian markets claimed the top five most affordable markets for the APAC region. Australian markets and Tokyo were noticeably higher cost than the remainder of the APAC comparison set.

Talent Quality

Measuring tech talent quality is difficult, but one way to do so is to measure the proximity to high-quality, trained computer science graduates. By analyzing QS World University Rankings data on computer science students, Cushman & Wakefield was able to provide a proxy for the availability of quality tech talent in markets around the globe.

Many of the top-performing markets are, not surprisingly, large global gateways with access to substantial student populations. These locations include markets such as Beijing, Hong Kong, Sydney, Los Angeles, Boston, Toronto, London and Munich. Additionally, another tier of markets with access to a deep bench of quality educational institutions also have advantages cities such as Raleigh-Durham, Montreal, Milan and Manchester, UK.

Talent Competitiveness

Thick labor markets with high-quality talent will attract additional occupiers looking for technical skills, increasing competition for the existing talent.

This can be a virtuous cycle where more job availabilities entice additional qualified workers to a city, which in turn makes it more attractive for companies to move into and expand in those markets.

After a dip in the middle of 2020, demand for tech talent has been on the rise. Globally, job postings for computer programmers, IT network professionals, and analysts and data scientists increased over 50% in the first year of the pandemic.

Postings shot up in Q2 2022, hitting 840,000 in May 2022, which included 390,000 computer programming job postings, 340,000 postings for analysts/data scientists and 110,000 postings for IT network professionals.

To measure the market-specific talent supply-and-demand balance, we used a ratio of job postings to talent pool and population.

Not surprisingly, some deep talent pools have beneficial competitive dynamics for employers (i.e., more eligible workers per job posting).

Markets such as these are likely to continue to be tech occupation hot beds: Toronto, San Francisco Bay Area, London, Paris and Beijing. Markets with medium-sized labor pools can also have an attractive balance of talent, such as Montreal, Munich and Amsterdam.

EMEA
London, Paris, Munich and Amsterdam
have Europe's strongest candidate pools for existing tech job postings.

APAC
Beijing and Bengaluru led APAC with strong talent-to-job posting ratios. APAC generally scored lower, suggesting fast growth in many Asian markets has led to a relatively high number of listings per qualified individual.

AMERICAS
Canada had several markets at the top of the list, led by Ottawa and Toronto. The San Francisco Bay Area and Washington, DC are near the top, while other U.S. gateway markets are more limited in terms of competitiveness.

Real Estate Cost

The markets with the highest asking rents for Class A CBD or prime office real estate are global gateway cities. Europe is well represented among the most expensive tech markets around the globe, led by London, Paris and Stockholm.

Office rental costs are most bifurcated in the APAC region. Three of the five most expensive markets—Hong Kong, Tokyo and Singapore—are in the APAC region, as are seven of the 10 least expensive markets. Three of the five most expensive markets and seven of the ten least expensive markets are in the APAC region.
After the gateway markets like San Francisco and Toronto, the most expensive office space is in tech-dominant markets, such as Austin, Seattle and Puget Sound – Eastside.

Cost-effective options for office real estate can be found in:

Regional and Emerging Tech Hubs in EMEA
Beyond the global tech hubs in Western Europe, employers have expanding operations into Central Europe
Read more

Americas
Much of Latin America and secondary markets in the U.S. Midwest such as Kansas City, Cincinnati and St. Louis. 

APAC
Various parts of India and smaller Chinese markets, such as Tianjin and Chongqing. 

EMEA
Smaller Western European markets like Toulouse and Turin, and Eastern European capitals such as Istanbul and Bucharest.

Real Estate Vacancy

In the wake of the pandemic, vacancy levels increased to a greater degree in the Americas, accounting for two-thirds of markets currently with 20%+ vacancy rates. Vacancy is below 10% in two Canadian markets—Toronto and Vancouver—as well as in several other Americas markets, including Santiago, Boston and Boise.

European markets tend to be tighter, accounting for 60% of the 30 markets with vacancy rates below 10%. German markets—Munich, Hamburg and Berlin—are in the 4%-5% vacancy range.

In many cases, higher vacancy rates are due to supply-side growth during the pandemic, evidenced by the many deliveries since 2020. Construction office deliveries will continue to create opportunities for tech companies to move into new, high-quality space that attracts and retains talent in critical labor markets.

Real Estate New Product

Several APAC tech hubs have over 20 million square feet (msf) of office space under construction, representing 20% of current inventory in Delhi and 50% in Hyderabad. Construction pipelines in South Asian markets are noticeably higher in East Asia and Australia construction remains limited.

In the Americas, New York City has the deepest pipeline of office space under construction, at more than 16+ msf. As a percentage of current inventory, however, that only represents 6% of the current inventory in Manhattan, well below the share of inventory under construction in Vancouver, Austin and Toronto.

The largest pipelines in Europe are in Berlin, Munich, Paris and London, all of which are over 15 msf. As a percentage of current inventory, however, European construction pipelines are conservative, with Dublin as the only market exceeding 10%.

Building an Office to Support Employees as People
Tech companies have moved on from flashy amenities like ping pong tables and slides; instead, they are focusing on amenities to support their employees as people.
Read more

Business Environment

Tech firms take serious consideration of the economic health of a given market.

Markets with slow economies, restrictive government policies and negative political dynamics can all put downward pressure on the ability of firms to thrive.

Alternatively, markets may also have positive environmental factors such as tax incentives, strong infrastructure and the presence of other vibrant businesses.

To capture this particular trend, we considered a number of different factors:

Business confidence surveys
We used each market’s country to act as a representation of the combined effect of these positive and negative environmental factors.

The Rise of Innovation Districts
Innovation districts have become a natural solution to the ongoing questions over what workplaces should look like in a post-pandemic world.
Read more

Presence and health of other firms
In tandem with the business confidence, we considered the percentage of businesses in a market’s country that fall within the information / communication technology categories.

Digital legal framework
The sovereignty of data, protections for both firms and consumers as well as data privacy policies all factor into the ability of a firm to locate in a market. We utilized the adaptation of legal framework to digital business models as rated by WEF Global Competitiveness Index.

Effective governance
Markets with high levels of accountability, political stability, absence of violence, government effectiveness, regulatory quality, rule of law, and control of corruption will rank highly for tech employers seeking seamless operation. These factors are often key factors in decision-making for talent as well. We utilized the country-level average percentile ranking of the World Banks’ Worldwide Governance Indicators which encompass all the factors named above.

Quality of life
Quality of life is key to ensuring a continued pipeline of talent and the ability to retain that talent. Using data aggregated in the Mercer Quality of Living survey, we considered a wide range of quality of life factors including:

   
  • Living costs
  • Availability of recreation activities
  • Natural environment
  • Crime
  • Culture

Location Strategy Beyond this Study

The methodology used and analysis performed to identify top global tech markets seeks to capture current and future dynamics, using metrics based on historical data. The acceleration of trends in digitization, remote working and sustainability affect the positioning of these cities in the global pursuit for tech talent. Location is evolving into a broader, complex and fluid concept. Occupiers’ location strategy is expected to develop in line with the following trends, giving way to additional evaluation criteria as the tech sector evolves:  

Global talent sourcing  
A distributed operating model with virtual presence everywhere accessing a broader talent pool, increasing talent diversity, spreading economic development, benefiting the environment.  

Regional cities winning ground  
Regional cities with good universities, strong links to large cities, offering a combination of quality of life and affordability may hold strategic advantages.  

Catchment areas are expanding  
With remote work being the norm, talent pools are geographically expanding beyond typical city boundaries with employees increased openness to longer commutes and fewer days spent in-office, allowing companies to reach out to new talent that sits in broader geographic areas.  

The role of global headquarters is changing  
The size and type of space in core office urban hubs is evolving to facilitate learning, innovation, collaboration and connection with company’s culture.  

As a result, there are additional future factors that may drive location decisions and define the next global Tech Cities:  

    
  • Quality of cost of living 
  • Cultural vibrancy 
  • Climate conditions 
  • Alignment on labor and tax regulation (cross-border, seamless business operations) 
  • Air and ground connectivity to geographically dispersed workforce 
  • Telecommunications infrastructure 
  • Access to university student populations  

Consideration of these emerging location drivers offers immense opportunity for new cities to emerge and potentially challenge today’s established tech hubs.  

Workplace Topics to Explore

The New Wave in the War for Talent: Choice
The war for talent between tech companies isn’t new. For almost a decade, technology companies have battled to attract and retain the most innovative talent.
Read more
Building an Office to Support Employees as People
Tech companies have moved on from flashy amenities like ping pong tables and slides; instead, they are focusing on amenities to support their employees as people.
Read more
The Rise of Innovation Districts
Innovation districts have become a natural solution to the ongoing questions over what workplaces should look like in a post-pandemic world.
Read more

Methodology for Scoring Tech Cities

# Category Metric Source Weighting
1 Talent  Talent pool depth  Emsi  Heavy 
Talent  Talent cost  Economic Research Institute (ERI) Medium 
Talent  Talent quality  Time Higher Education  Medium 
Talent  Talent pool competitiveness  Emsi Medium 
Talent  Diversity of workforce  World Economic Forum (WEF)  Medium 
Talent  Population growth  Moodys; Various governmental agenciesa  Medium 
Real Estate  Office: Asking rents  Cushman & Wakefield  Low 
Real Estate  Office: Vacancy  Cushman & Wakefield  Medium 
Real Estate  Office: Space under construction  Cushman & Wakefield  Medium 
10  Business Environment  Business confidence  Organization for Economic Co-operation and Development (OECD); Moody  Low 
11  Business Environment  Tech share of economy  Moodys; Various government agencies Low 
12  Business Environment  Digital legal framework  World Economic Forum (WEF)  Low 
13  Business Environment  Worldwide governance ranking  World Bank  Low 
14  Business Environment  Quality of living  Mercer  Low 

 

Footnotes:

1-3 Moody's Analytics Forecasted; Various national labor statistics agencies  9-10 Emsi; Cushman & Wakefield Research 
4 Moody's Analytics Calculated and Forecasted  11-12 Cushman & Wakefield Research 
5-6 Emsi  13 Economic Research Institute (ERI); Cushman & Wakefield Research
7-8 Economic Research Institute (ERI) 
14-16 Cushman & Wakefield Research

Connect with our Authors

David C Smith (image)
David Smith

Head of Americas Insights, Global Research
Atlanta, United States


Download VCard

Jacob Albers Headshot
Jacob Albers

Head of Alternatives Insights
San Francisco, United States


Download VCard

Robert Sammons San Francisco Research
Robert Sammons

Senior Research Director, Americas Technology Lead
San Francisco, United States


Download VCard

Elisa Konik Oakland Advisory Group Leader
Elisa Konik

Executive Managing Director
Costa Mesa, United States


Download VCard

Dimitris Vlachopoulos - London
Dimitris Vlachopoulos

International Partner, Head of Portfolio & Location Strategy, EMEA
Athens, Greece


Download VCard

Related insights

Tech Cities
Article • Workplace

Tech Cities: An Evolution in Talent, Location, and the Workplace

As global tech companies consider locations in top tech markets, finding the right place is just the start. From emerging tech to publicly traded, a tech company’s dynamic needs go beyond just location strategy and expand into the creation of workplace ecosystems that attract, engage and retain talent.
Marissa Huber • 8/8/2022
Tech Cities EMEA
Article • Technology

Regional and Emerging Tech Hubs in EMEA

Beyond the global tech hubs in Western Europe, employers have expanding operations into Central Europe.
Dimitris Vlachopoulos • 8/8/2022
Corenet Survey
Insights • Workplace

Workplace Ecosystems: The Office’s Changing Place in an Agile World

Cushman & Wakefield partnered with CoreNet Global to survey its membership on the future of the workplace.
David Smith • 4/7/2021

CAN'T FIND WHAT YOU'RE LOOKING FOR?

Get in touch with one of our professionals.

With your permission we and our partners would like to use cookies in order to access and record information and process personal data, such as unique identifiers and standard information sent by a device to ensure our website performs as expected, to develop and improve our products, and for advertising and insight purposes.

Alternatively click on More Options and select your preferences before providing or refusing consent. Some processing of your personal data may not require your consent, but you have a right to object to such processing.

You can change your preferences at any time by returning to this site or clicking on Privacy & Cookies.
MORE OPTIONS
AGREE AND CLOSE
These cookies ensure that our website performs as expected,for example website traffic load is balanced across our servers to prevent our website from crashing during particularly high usage.
These cookies allow our website to remember choices you make (such as your user name, language or the region you are in) and provide enhanced features. These cookies do not gather any information about you that could be used for advertising or remember where you have been on the internet.
These cookies allow us to work with our marketing partners to understand which ads or links you have clicked on before arriving on our website or to help us make our advertising more relevant to you.
Agree All
Reject All
SAVE SETTINGS