Artificial Intelligence
Global Supervisory Control and Data Acquisition (SCADA) Market to Reach US$15.5 Billion by the Year 2027
New York, July 27, 2021 (GLOBE NEWSWIRE) — Reportlinker.com announces the release of the report “Global Supervisory Control and Data Acquisition (SCADA) Industry” – https://www.reportlinker.com/p03549667/?utm_source=GNW
3 Billion in the year 2020, is projected to reach a revised size of US$15.5 Billion by 2027, growing at a CAGR of 4.6% over the analysis period 2020-2027.Services, one of the segments analyzed in the report, is projected to grow at a 5.2% CAGR to reach US$8.2 Billion by the end of the analysis period.After an early analysis of the business implications of the pandemic and its induced economic crisis, growth in the Software segment is readjusted to a revised 4.2% CAGR for the next 7-year period. This segment currently accounts for a 28.4% share of the global Supervisory Control and Data Acquisition (SCADA) market.
The U.S. Accounts for Over 26.1% of Global Market Size in 2020, While China is Forecast to Grow at a 6.4% CAGR for the Period of 2020-2027
The Supervisory Control and Data Acquisition (SCADA) market in the U.S. is estimated at US$3 Billion in the year 2020. The country currently accounts for a 26.06% share in the global market. China, the world second largest economy, is forecast to reach an estimated market size of US$2.6 Billion in the year 2027 trailing a CAGR of 6.4% through 2027. Among the other noteworthy geographic markets are Japan and Canada, each forecast to grow at 3.6% and 4.3% respectively over the 2020-2027 period. Within Europe, Germany is forecast to grow at approximately 4% CAGR while Rest of European market (as defined in the study) will reach US$2.6 Billion by the year 2027.
Hardware Segment Corners a 20.5% Share in 2020
In the global Hardware segment, USA, Canada, Japan, China and Europe will drive the 3.6% CAGR estimated for this segment. These regional markets accounting for a combined market size of US$1.6 Billion in the year 2020 will reach a projected size of US$2.1 Billion by the close of the analysis period. China will remain among the fastest growing in this cluster of regional markets. Led by countries such as Australia, India, and South Korea, the market in Asia-Pacific is forecast to reach US$3.1 Billion by the year 2027.
Select Competitors (Total 116 Featured)
- ABB Ltd
- AVEVA Group plc
- Emerson Electric Co
- Detechtion Technologies
- General Electric
- Hitachi, Ltd
- Honeywell International
- Iconics Inc
- Inductive Automation
- Mitsubishi Electric Factory Automation
- Omron Corporation
- Ovak Technologies
- Progea group
- Rockwell Automation, Inc
- Schneider Electric
- Siemens AG
- Toshiba Infrastructure Systems & Solutions Corporation
- Willowglen Systems Inc
- Yokogawa Electric
Read the full report: https://www.reportlinker.com/p03549667/?utm_source=GNW
I. METHODOLOGY
II. EXECUTIVE SUMMARY
1. MARKET OVERVIEW
Influencer Market Insights
World Market Trajectories
An Introduction to Supervisory Control and Data Acquisition:
(SCADA)
Components of SCADA
Functions of SCADA
SCADA Architectures
Global Market Prospects and Outlook
RTU and Service Architecture Segments Lead Global SCADA Market
Oil & Gas Industry Emerges as the Largest Application Market
for SCADA
Developed Countries Dominate, Developing Markets Offer
Opportunities for Future Growth
Impact of COVID-19
EXHIBIT 1: While Immediate Liquidity Crunch Will Trigger
Declines in IT Spending in 2020, Automation, Cybersecurity,
Cloud, AI & IoT Will Lead a Quick Recovery in 2021: Global IT
Spending Growth (In %) for 2018-2020
Competition
Recent Market Activity
2. FOCUS ON SELECT PLAYERS
3. MARKET TRENDS & DRIVERS
With Automation Being the Most Logical Choice for Process
Improvements, Adoption of SCADA Systems Poised to Rise
EXHIBIT 2: Spending on Industrial Automation Spurs Interest in
SCADA as a Tool to Enable Automation: Global Industrial
Automation Market (in US$ Billion) for the Years 2019, 2022,
2024 and 2026
Increasing Role of SCADA in Data, Energy and Diagnostic Management
Complexity of Modern Industrial Processes Provides a Business
Case for SCADA
Focus on Urban Infrastructure Development Projects Supports
Growth of SCADA Market
EXHIBIT 3: Global Smart Cities Market Revenues in US$ Billion
for the Years 2019, 2021, 2023 and 2025
SCADA Technology Playing a Critical Part in Enabling Industry 4.0
5G to Help SCADA Emerge as Major Building Block for Smart
Factories
Need for SCADA Grows with Increased Adoption of IoT and
Artificial Intelligence
SCADA Systems Need to Evolve to Tap IIoT Opportunity
Deployment of WSNs Boosts the Performance & Flexibility of SCADA
With Mobility Gaining Prominence in Industrial Automation &
Process Control, Mobile SCADA Comes into the Spotlight as a
Promising Technology
EXHIBIT 4: Smartphone Usage in the Industrial Era of
Interconnectivity & Open Communication Presents Opportunities
for Mobile SCADA: Global Shipments of Smartphones (in Million
Units) for the Years 2011 through 2019
IP SCADA Systems Raises Risk of Security Attacks
New Developments in Wireless SCADA
Cloud-based SCADA Continues to Make Strong Gains
Growing Adoption of Cloud SCADA-as-a-Service
Big Data Analytics Improve Efficiency of SCADA Systems
Increasing Integration of SCADA with Corporate IT Systems
Remote Monitoring and Management of SCADA Systems Fuels
Development of SCADA-HMI Applications
RTUs: The Fundamental Building Block for SCADA Systems
Advanced PLCs Emerge as Replacements for RTUs
Market Benefits from Technological Advancements in SCADA Systems
As SCADA Assumes Significance in Critical Infrastructure,
Cybersecurity Concerns Come into Spotlight
SCADA Becomes Vital to Distribution, Transmission & Generation
Assets in the Power Sector
EXHIBIT 5: Projected Infrastructure Investments in the Energy
Sector Sets the Business Climate for SCADA in Utilities:
Global Cumulative Infrastructure Spending (In US$ Trillion)
by Sector during 2016-2030
SCADA Gains Traction in Renewable Energy Plants
SCADA: Vital for Smart Grid Decision Making
EXHIBIT 6: Global Smart Grid Revenues in US$ Million for the
Years 2018, 2021 and 2024
Rising Interest in Automation Solutions Spurs Growth Potential
of SCADA Technology in Oil & Gas Industry
EXHIBIT 7: As Digital Technologies Penetrate the Oil & Gas
Industry to Relieve Cost & Efficiency Pressures, SCADA Systems
Poised to Benefit: Global Spending on Digital Oilfield
Technologies (In US$ Billion) for the Years 2019, 2021 and
2023
Trend towards Smart Water Networks Drives SCADA Demand
SCADA Systems Find Increased Application in the Agriculture Sector
SCADA Systems Remain Indispensable Technology for Solar Operators
4. GLOBAL MARKET PERSPECTIVE
Table 1: World Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Geographic Region –
USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America
and Rest of World Markets – Independent Analysis of Annual
Sales in US$ Million for Years 2020 through 2027 and % CAGR
Table 2: World Historic Review for Supervisory Control and Data
Acquisition (SCADA) by Geographic Region – USA, Canada, Japan,
China, Europe, Asia-Pacific, Latin America and Rest of World
Markets – Independent Analysis of Annual Sales in US$ Million
for Years 2015 through 2019 and % CAGR
Table 3: World 12-Year Perspective for Supervisory Control and
Data Acquisition (SCADA) by Geographic Region – Percentage
Breakdown of Value Sales for USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets for Years
2015, 2020 & 2027
Table 4: World Current & Future Analysis for Services by
Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2020 through 2027 and % CAGR
Table 5: World Historic Review for Services by Geographic
Region – USA, Canada, Japan, China, Europe, Asia-Pacific, Latin
America and Rest of World Markets – Independent Analysis of
Annual Sales in US$ Million for Years 2015 through 2019 and %
CAGR
Table 6: World 12-Year Perspective for Services by Geographic
Region – Percentage Breakdown of Value Sales for USA, Canada,
Japan, China, Europe, Asia-Pacific, Latin America and Rest of
World for Years 2015, 2020 & 2027
Table 7: World Current & Future Analysis for Software by
Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2020 through 2027 and % CAGR
Table 8: World Historic Review for Software by Geographic
Region – USA, Canada, Japan, China, Europe, Asia-Pacific, Latin
America and Rest of World Markets – Independent Analysis of
Annual Sales in US$ Million for Years 2015 through 2019 and %
CAGR
Table 9: World 12-Year Perspective for Software by Geographic
Region – Percentage Breakdown of Value Sales for USA, Canada,
Japan, China, Europe, Asia-Pacific, Latin America and Rest of
World for Years 2015, 2020 & 2027
Table 10: World Current & Future Analysis for Hardware by
Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2020 through 2027 and % CAGR
Table 11: World Historic Review for Hardware by Geographic
Region – USA, Canada, Japan, China, Europe, Asia-Pacific, Latin
America and Rest of World Markets – Independent Analysis of
Annual Sales in US$ Million for Years 2015 through 2019 and %
CAGR
Table 12: World 12-Year Perspective for Hardware by Geographic
Region – Percentage Breakdown of Value Sales for USA, Canada,
Japan, China, Europe, Asia-Pacific, Latin America and Rest of
World for Years 2015, 2020 & 2027
Table 13: World Current & Future Analysis for Remote Terminal
Units (RTU) by Geographic Region – USA, Canada, Japan, China,
Europe, Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2020 through 2027 and % CAGR
Table 14: World Historic Review for Remote Terminal Units (RTU)
by Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2015 through 2019 and % CAGR
Table 15: World 12-Year Perspective for Remote Terminal Units
(RTU) by Geographic Region – Percentage Breakdown of Value
Sales for USA, Canada, Japan, China, Europe, Asia-Pacific,
Latin America and Rest of World for Years 2015, 2020 & 2027
Table 16: World Current & Future Analysis for Human-Machine
Interface (HMI) by Geographic Region – USA, Canada, Japan,
China, Europe, Asia-Pacific, Latin America and Rest of World
Markets – Independent Analysis of Annual Sales in US$ Million
for Years 2020 through 2027 and % CAGR
Table 17: World Historic Review for Human-Machine Interface
(HMI) by Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2015 through 2019 and % CAGR
Table 18: World 12-Year Perspective for Human-Machine Interface
(HMI) by Geographic Region – Percentage Breakdown of Value
Sales for USA, Canada, Japan, China, Europe, Asia-Pacific,
Latin America and Rest of World for Years 2015, 2020 & 2027
Table 19: World Current & Future Analysis for Programmable
Logic Controllers (PLC) by Geographic Region – USA, Canada,
Japan, China, Europe, Asia-Pacific, Latin America and Rest of
World Markets – Independent Analysis of Annual Sales in US$
Million for Years 2020 through 2027 and % CAGR
Table 20: World Historic Review for Programmable Logic
Controllers (PLC) by Geographic Region – USA, Canada, Japan,
China, Europe, Asia-Pacific, Latin America and Rest of World
Markets – Independent Analysis of Annual Sales in US$ Million
for Years 2015 through 2019 and % CAGR
Table 21: World 12-Year Perspective for Programmable Logic
Controllers (PLC) by Geographic Region – Percentage Breakdown
of Value Sales for USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World for Years 2015,
2020 & 2027
Table 22: World Current & Future Analysis for Communication
Systems by Geographic Region – USA, Canada, Japan, China,
Europe, Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2020 through 2027 and % CAGR
Table 23: World Historic Review for Communication Systems by
Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2015 through 2019 and % CAGR
Table 24: World 12-Year Perspective for Communication Systems
by Geographic Region – Percentage Breakdown of Value Sales for
USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America
and Rest of World for Years 2015, 2020 & 2027
Table 25: World Current & Future Analysis for Other Components
by Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2020 through 2027 and % CAGR
Table 26: World Historic Review for Other Components by
Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2015 through 2019 and % CAGR
Table 27: World 12-Year Perspective for Other Components by
Geographic Region – Percentage Breakdown of Value Sales for
USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America
and Rest of World for Years 2015, 2020 & 2027
Table 28: World Current & Future Analysis for Oil & Gas by
Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2020 through 2027 and % CAGR
Table 29: World Historic Review for Oil & Gas by Geographic
Region – USA, Canada, Japan, China, Europe, Asia-Pacific, Latin
America and Rest of World Markets – Independent Analysis of
Annual Sales in US$ Million for Years 2015 through 2019 and %
CAGR
Table 30: World 12-Year Perspective for Oil & Gas by Geographic
Region – Percentage Breakdown of Value Sales for USA, Canada,
Japan, China, Europe, Asia-Pacific, Latin America and Rest of
World for Years 2015, 2020 & 2027
Table 31: World Current & Future Analysis for Transportation by
Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2020 through 2027 and % CAGR
Table 32: World Historic Review for Transportation by
Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2015 through 2019 and % CAGR
Table 33: World 12-Year Perspective for Transportation by
Geographic Region – Percentage Breakdown of Value Sales for
USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America
and Rest of World for Years 2015, 2020 & 2027
Table 34: World Current & Future Analysis for
Telecommunications by Geographic Region – USA, Canada, Japan,
China, Europe, Asia-Pacific, Latin America and Rest of World
Markets – Independent Analysis of Annual Sales in US$ Million
for Years 2020 through 2027 and % CAGR
Table 35: World Historic Review for Telecommunications by
Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2015 through 2019 and % CAGR
Table 36: World 12-Year Perspective for Telecommunications by
Geographic Region – Percentage Breakdown of Value Sales for
USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America
and Rest of World for Years 2015, 2020 & 2027
Table 37: World Current & Future Analysis for Water &
Wastewater by Geographic Region – USA, Canada, Japan, China,
Europe, Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2020 through 2027 and % CAGR
Table 38: World Historic Review for Water & Wastewater by
Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2015 through 2019 and % CAGR
Table 39: World 12-Year Perspective for Water & Wastewater by
Geographic Region – Percentage Breakdown of Value Sales for
USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America
and Rest of World for Years 2015, 2020 & 2027
Table 40: World Current & Future Analysis for Food & Beverages
by Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2020 through 2027 and % CAGR
Table 41: World Historic Review for Food & Beverages by
Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2015 through 2019 and % CAGR
Table 42: World 12-Year Perspective for Food & Beverages by
Geographic Region – Percentage Breakdown of Value Sales for
USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America
and Rest of World for Years 2015, 2020 & 2027
Table 43: World Current & Future Analysis for Other
Applications by Geographic Region – USA, Canada, Japan, China,
Europe, Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2020 through 2027 and % CAGR
Table 44: World Historic Review for Other Applications by
Geographic Region – USA, Canada, Japan, China, Europe,
Asia-Pacific, Latin America and Rest of World Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2015 through 2019 and % CAGR
Table 45: World 12-Year Perspective for Other Applications by
Geographic Region – Percentage Breakdown of Value Sales for
USA, Canada, Japan, China, Europe, Asia-Pacific, Latin America
and Rest of World for Years 2015, 2020 & 2027
III. MARKET ANALYSIS
UNITED STATES
Electric Power T&D Sector Presents Opportunities for SCADA Market
Table 46: USA Current & Future Analysis for Supervisory Control
and Data Acquisition (SCADA) by Architecture – Services,
Software and Hardware – Independent Analysis of Annual Sales in
US$ Million for the Years 2020 through 2027 and % CAGR
Table 47: USA Historic Review for Supervisory Control and Data
Acquisition (SCADA) by Architecture – Services, Software and
Hardware Markets – Independent Analysis of Annual Sales in US$
Million for Years 2015 through 2019 and % CAGR
Table 48: USA 12-Year Perspective for Supervisory Control and
Data Acquisition (SCADA) by Architecture – Percentage Breakdown
of Value Sales for Services, Software and Hardware for the
Years 2015, 2020 & 2027
Table 49: USA Current & Future Analysis for Supervisory Control
and Data Acquisition (SCADA) by Component – Remote Terminal
Units (RTU), Human-Machine Interface (HMI), Programmable Logic
Controllers (PLC), Communication Systems and Other Components –
Independent Analysis of Annual Sales in US$ Million for the
Years 2020 through 2027 and % CAGR
Table 50: USA Historic Review for Supervisory Control and Data
Acquisition (SCADA) by Component – Remote Terminal Units (RTU),
Human-Machine Interface (HMI), Programmable Logic Controllers
(PLC), Communication Systems and Other Components Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2015 through 2019 and % CAGR
Table 51: USA 12-Year Perspective for Supervisory Control and
Data Acquisition (SCADA) by Component – Percentage Breakdown of
Value Sales for Remote Terminal Units (RTU), Human-Machine
Interface (HMI), Programmable Logic Controllers (PLC),
Communication Systems and Other Components for the Years 2015,
2020 & 2027
Table 52: USA Current & Future Analysis for Supervisory Control
and Data Acquisition (SCADA) by Application – Oil & Gas,
Transportation, Telecommunications, Water & Wastewater, Food &
Beverages and Other Applications – Independent Analysis of
Annual Sales in US$ Million for the Years 2020 through 2027 and
% CAGR
Table 53: USA Historic Review for Supervisory Control and Data
Acquisition (SCADA) by Application – Oil & Gas, Transportation,
Telecommunications, Water & Wastewater, Food & Beverages and
Other Applications Markets – Independent Analysis of Annual
Sales in US$ Million for Years 2015 through 2019 and % CAGR
Table 54: USA 12-Year Perspective for Supervisory Control and
Data Acquisition (SCADA) by Application – Percentage Breakdown
of Value Sales for Oil & Gas, Transportation,
Telecommunications, Water & Wastewater, Food & Beverages and
Other Applications for the Years 2015, 2020 & 2027
CANADA
Table 55: Canada Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Architecture –
Services, Software and Hardware – Independent Analysis of
Annual Sales in US$ Million for the Years 2020 through 2027 and
% CAGR
Table 56: Canada Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Architecture – Services, Software
and Hardware Markets – Independent Analysis of Annual Sales in
US$ Million for Years 2015 through 2019 and % CAGR
Table 57: Canada 12-Year Perspective for Supervisory Control
and Data Acquisition (SCADA) by Architecture – Percentage
Breakdown of Value Sales for Services, Software and Hardware
for the Years 2015, 2020 & 2027
Table 58: Canada Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Component – Remote
Terminal Units (RTU), Human-Machine Interface (HMI),
Programmable Logic Controllers (PLC), Communication Systems and
Other Components – Independent Analysis of Annual Sales in US$
Million for the Years 2020 through 2027 and % CAGR
Table 59: Canada Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Component – Remote Terminal Units
(RTU), Human-Machine Interface (HMI), Programmable Logic
Controllers (PLC), Communication Systems and Other Components
Markets – Independent Analysis of Annual Sales in US$ Million
for Years 2015 through 2019 and % CAGR
Table 60: Canada 12-Year Perspective for Supervisory Control
and Data Acquisition (SCADA) by Component – Percentage
Breakdown of Value Sales for Remote Terminal Units (RTU),
Human-Machine Interface (HMI), Programmable Logic Controllers
(PLC), Communication Systems and Other Components for the Years
2015, 2020 & 2027
Table 61: Canada Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Application – Oil &
Gas, Transportation, Telecommunications, Water & Wastewater,
Food & Beverages and Other Applications – Independent Analysis
of Annual Sales in US$ Million for the Years 2020 through 2027
and % CAGR
Table 62: Canada Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Application – Oil & Gas,
Transportation, Telecommunications, Water & Wastewater, Food &
Beverages and Other Applications Markets – Independent Analysis
of Annual Sales in US$ Million for Years 2015 through 2019 and
% CAGR
Table 63: Canada 12-Year Perspective for Supervisory Control
and Data Acquisition (SCADA) by Application – Percentage
Breakdown of Value Sales for Oil & Gas, Transportation,
Telecommunications, Water & Wastewater, Food & Beverages and
Other Applications for the Years 2015, 2020 & 2027
JAPAN
Table 64: Japan Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Architecture –
Services, Software and Hardware – Independent Analysis of
Annual Sales in US$ Million for the Years 2020 through 2027 and
% CAGR
Table 65: Japan Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Architecture – Services, Software
and Hardware Markets – Independent Analysis of Annual Sales in
US$ Million for Years 2015 through 2019 and % CAGR
Table 66: Japan 12-Year Perspective for Supervisory Control and
Data Acquisition (SCADA) by Architecture – Percentage Breakdown
of Value Sales for Services, Software and Hardware for the
Years 2015, 2020 & 2027
Table 67: Japan Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Component – Remote
Terminal Units (RTU), Human-Machine Interface (HMI),
Programmable Logic Controllers (PLC), Communication Systems and
Other Components – Independent Analysis of Annual Sales in US$
Million for the Years 2020 through 2027 and % CAGR
Table 68: Japan Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Component – Remote Terminal Units
(RTU), Human-Machine Interface (HMI), Programmable Logic
Controllers (PLC), Communication Systems and Other Components
Markets – Independent Analysis of Annual Sales in US$ Million
for Years 2015 through 2019 and % CAGR
Table 69: Japan 12-Year Perspective for Supervisory Control and
Data Acquisition (SCADA) by Component – Percentage Breakdown of
Value Sales for Remote Terminal Units (RTU), Human-Machine
Interface (HMI), Programmable Logic Controllers (PLC),
Communication Systems and Other Components for the Years 2015,
2020 & 2027
Table 70: Japan Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Application – Oil &
Gas, Transportation, Telecommunications, Water & Wastewater,
Food & Beverages and Other Applications – Independent Analysis
of Annual Sales in US$ Million for the Years 2020 through 2027
and % CAGR
Table 71: Japan Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Application – Oil & Gas,
Transportation, Telecommunications, Water & Wastewater, Food &
Beverages and Other Applications Markets – Independent Analysis
of Annual Sales in US$ Million for Years 2015 through 2019 and
% CAGR
Table 72: Japan 12-Year Perspective for Supervisory Control and
Data Acquisition (SCADA) by Application – Percentage Breakdown
of Value Sales for Oil & Gas, Transportation,
Telecommunications, Water & Wastewater, Food & Beverages and
Other Applications for the Years 2015, 2020 & 2027
CHINA
Table 73: China Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Architecture –
Services, Software and Hardware – Independent Analysis of
Annual Sales in US$ Million for the Years 2020 through 2027 and
% CAGR
Table 74: China Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Architecture – Services, Software
and Hardware Markets – Independent Analysis of Annual Sales in
US$ Million for Years 2015 through 2019 and % CAGR
Table 75: China 12-Year Perspective for Supervisory Control and
Data Acquisition (SCADA) by Architecture – Percentage Breakdown
of Value Sales for Services, Software and Hardware for the
Years 2015, 2020 & 2027
Table 76: China Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Component – Remote
Terminal Units (RTU), Human-Machine Interface (HMI),
Programmable Logic Controllers (PLC), Communication Systems and
Other Components – Independent Analysis of Annual Sales in US$
Million for the Years 2020 through 2027 and % CAGR
Table 77: China Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Component – Remote Terminal Units
(RTU), Human-Machine Interface (HMI), Programmable Logic
Controllers (PLC), Communication Systems and Other Components
Markets – Independent Analysis of Annual Sales in US$ Million
for Years 2015 through 2019 and % CAGR
Table 78: China 12-Year Perspective for Supervisory Control and
Data Acquisition (SCADA) by Component – Percentage Breakdown of
Value Sales for Remote Terminal Units (RTU), Human-Machine
Interface (HMI), Programmable Logic Controllers (PLC),
Communication Systems and Other Components for the Years 2015,
2020 & 2027
Table 79: China Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Application – Oil &
Gas, Transportation, Telecommunications, Water & Wastewater,
Food & Beverages and Other Applications – Independent Analysis
of Annual Sales in US$ Million for the Years 2020 through 2027
and % CAGR
Table 80: China Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Application – Oil & Gas,
Transportation, Telecommunications, Water & Wastewater, Food &
Beverages and Other Applications Markets – Independent Analysis
of Annual Sales in US$ Million for Years 2015 through 2019 and
% CAGR
Table 81: China 12-Year Perspective for Supervisory Control and
Data Acquisition (SCADA) by Application – Percentage Breakdown
of Value Sales for Oil & Gas, Transportation,
Telecommunications, Water & Wastewater, Food & Beverages and
Other Applications for the Years 2015, 2020 & 2027
EUROPE
Table 82: Europe Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Geographic Region –
France, Germany, Italy, UK and Rest of Europe Markets –
Independent Analysis of Annual Sales in US$ Million for Years
2020 through 2027 and % CAGR
Table 83: Europe Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Geographic Region – France,
Germany, Italy, UK and Rest of Europe Markets – Independent
Analysis of Annual Sales in US$ Million for Years 2015 through
2019 and % CAGR
Table 84: Europe 12-Year Perspective for Supervisory Control
and Data Acquisition (SCADA) by Geographic Region – Percentage
Breakdown of Value Sales for France, Germany, Italy, UK and
Rest of Europe Markets for Years 2015, 2020 & 2027
Table 85: Europe Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Architecture –
Services, Software and Hardware – Independent Analysis of
Annual Sales in US$ Million for the Years 2020 through 2027 and
% CAGR
Table 86: Europe Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Architecture – Services, Software
and Hardware Markets – Independent Analysis of Annual Sales in
US$ Million for Years 2015 through 2019 and % CAGR
Table 87: Europe 12-Year Perspective for Supervisory Control
and Data Acquisition (SCADA) by Architecture – Percentage
Breakdown of Value Sales for Services, Software and Hardware
for the Years 2015, 2020 & 2027
Table 88: Europe Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Component – Remote
Terminal Units (RTU), Human-Machine Interface (HMI),
Programmable Logic Controllers (PLC), Communication Systems and
Other Components – Independent Analysis of Annual Sales in US$
Million for the Years 2020 through 2027 and % CAGR
Table 89: Europe Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Component – Remote Terminal Units
(RTU), Human-Machine Interface (HMI), Programmable Logic
Controllers (PLC), Communication Systems and Other Components
Markets – Independent Analysis of Annual Sales in US$ Million
for Years 2015 through 2019 and % CAGR
Table 90: Europe 12-Year Perspective for Supervisory Control
and Data Acquisition (SCADA) by Component – Percentage
Breakdown of Value Sales for Remote Terminal Units (RTU),
Human-Machine Interface (HMI), Programmable Logic Controllers
(PLC), Communication Systems and Other Components for the Years
2015, 2020 & 2027
Table 91: Europe Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Application – Oil &
Gas, Transportation, Telecommunications, Water & Wastewater,
Food & Beverages and Other Applications – Independent Analysis
of Annual Sales in US$ Million for the Years 2020 through 2027
and % CAGR
Table 92: Europe Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Application – Oil & Gas,
Transportation, Telecommunications, Water & Wastewater, Food &
Beverages and Other Applications Markets – Independent Analysis
of Annual Sales in US$ Million for Years 2015 through 2019 and
% CAGR
Table 93: Europe 12-Year Perspective for Supervisory Control
and Data Acquisition (SCADA) by Application – Percentage
Breakdown of Value Sales for Oil & Gas, Transportation,
Telecommunications, Water & Wastewater, Food & Beverages and
Other Applications for the Years 2015, 2020 & 2027
FRANCE
Table 94: France Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Architecture –
Services, Software and Hardware – Independent Analysis of
Annual Sales in US$ Million for the Years 2020 through 2027 and
% CAGR
Table 95: France Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Architecture – Services, Software
and Hardware Markets – Independent Analysis of Annual Sales in
US$ Million for Years 2015 through 2019 and % CAGR
Table 96: France 12-Year Perspective for Supervisory Control
and Data Acquisition (SCADA) by Architecture – Percentage
Breakdown of Value Sales for Services, Software and Hardware
for the Years 2015, 2020 & 2027
Table 97: France Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Component – Remote
Terminal Units (RTU), Human-Machine Interface (HMI),
Programmable Logic Controllers (PLC), Communication Systems and
Other Components – Independent Analysis of Annual Sales in US$
Million for the Years 2020 through 2027 and % CAGR
Table 98: France Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Component – Remote Terminal Units
(RTU), Human-Machine Interface (HMI), Programmable Logic
Controllers (PLC), Communication Systems and Other Components
Markets – Independent Analysis of Annual Sales in US$ Million
for Years 2015 through 2019 and % CAGR
Table 99: France 12-Year Perspective for Supervisory Control
and Data Acquisition (SCADA) by Component – Percentage
Breakdown of Value Sales for Remote Terminal Units (RTU),
Human-Machine Interface (HMI), Programmable Logic Controllers
(PLC), Communication Systems and Other Components for the Years
2015, 2020 & 2027
Table 100: France Current & Future Analysis for Supervisory
Control and Data Acquisition (SCADA) by Application – Oil &
Gas, Transportation, Telecommunications, Water & Wastewater,
Food & Beverages and Other Applications – Independent Analysis
of Annual Sales in US$ Million for the Years 2020 through 2027
and % CAGR
Table 101: France Historic Review for Supervisory Control and
Data Acquisition (SCADA) by Application – Oil & Gas,
Transportation, Telecommunications, Water & Wastewater, Food &
Beverages and Other Applications Markets – Independent Analysis
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Artificial Intelligence
IBM, Government of Canada, Government of Quebec Sign Agreements to Strengthen Canada’s Semiconductor Industry
Up to $187M CAD to be invested to progress expansion of chip packaging capacity and capabilities and to strengthen R&D at IBM Canada’s Bromont plant
BROMONT, QC, April 26, 2024 /PRNewswire/ — IBM (NYSE: IBM), the Government of Canada, and the Government of Quebec today announced agreements that will strengthen Canada’s semiconductor industry, and further develop the assembly, testing and packaging (ATP) capabilities for semiconductor modules to be used across a wide range of applications including telecommunications, high performance computing, automotive, aerospace & defence, computer networks, and generative AI, at IBM Canada’s plant in Bromont, Quebec. The agreements reflect a combined investment valued at approximately $187M CAD.
“Today’s announcement is a massive win for Canada and our dynamic tech sector. It will create high-paying jobs, invest in innovation, strengthen supply chains, and help make sure the most advanced technologies are Canadian-made. Semiconductors power the world, and we’re putting Canada at the forefront of that opportunity,” said the Right Honourable Justin Trudeau, Prime Minister of Canada
In addition to the advancement of packaging capabilities, IBM will be conducting R&D to develop methods for scalable manufacturing and other advanced assembly processes to support the packaging of different chip technologies, to further Canada’s role in the North American semiconductor supply chain and expand and anchor Canada’s capabilities in advanced packaging.
The agreements also allow for collaborations with small and medium-sized Canadian-based enterprises with the intent of fostering the development of a semiconductor ecosystem, now and into the future.
“IBM has long been a leader in semiconductor research and development, pioneering breakthroughs to meet tomorrow’s challenges. With the demand for compute surging in the age of AI, advanced packaging and chiplet technology is becoming critical for the acceleration of AI workloads,” said Darío Gil, IBM Senior Vice President and Director of Research. “As one of the largest chip assembly and testing facilities in North America, IBM’s Bromont facility will play a central role in this future. We are proud to be working with the governments of Canada and Quebec toward those goals and to build a stronger and more balanced semiconductor ecosystem in North America and beyond.”
IBM Canada’s Bromont plant is one of North America’s largest chip assembly and testing facilities, having operated in the region for 52 years. Today, the facility transforms advanced semiconductor components into state-of-the-art microelectronic solutions, playing a key role in IBM’s semiconductor R&D leadership alongside IBM’s facilities at the Albany NanoTech Complex and throughout New York’s Hudson Valley. These agreements will help to further establish a corridor of semiconductor innovation from New York to Bromont.
“Advanced packaging is a crucial component of the semiconductor industry, and IBM Canada’s Bromont plant has led the world in this process for decades,” said Deb Pimentel, president of IBM Canada. “Building upon IBM’s 107-year legacy of technology innovation and R&D in Canada, the Canadian semiconductor industry will now become even stronger, allowing for robust supply chains and giving Canadians steady access to even more innovative technologies and products. This announcement represents just one more example of IBM’s leadership and commitment to the country’s technology and business landscape.”
Chip packaging, the process of connecting integrated circuits on a chip or circuit board, has become more complex as electronic devices have shrunk and the components of chips themselves get smaller and smaller. IBM announced the world’s first 2 nanometer chip technology in 2021 and, as the semiconductor industry moves towards new methods of chip construction, advances in packaging will grow in importance.
“Semiconductors are part of our everyday life. They are in our phones, our cars, and our appliances. Through this investment, we are supporting Canadian innovators, creating good jobs, and solidifying Canada’s semiconductor industry to build a stronger economy. Canada is set to play a larger role in the global semiconductor industry thanks to projects like the one we are announcing today. Because, when we invest in semiconductor and quantum technologies, we invest in economic security.” — The Honourable François-Philippe Champagne, Minister of Innovation, Science and Industry
“This investment by IBM in Bromont will ensure that Quebec continues to stand out in the field of microelectronics. An increase in production capacity will solidify Quebec’s position in the strategic microelectronics sector in North America.” — The Honourable Pierre Fitzgibbon, Minister of Economy, Innovation and Energy, Minister responsible for Regional Economic Development and Minister responsible for the Metropolis and the Montreal region
About IBMIBM is a leading provider of global hybrid cloud and AI, and consulting expertise. We help clients in more than 175 countries capitalize on insights from their data, streamline business processes, reduce costs and gain the competitive edge in their industries. More than 4,000 government and corporate entities in critical infrastructure areas such as financial services, telecommunications and healthcare rely on IBM’s hybrid cloud platform and Red Hat OpenShift to affect their digital transformations quickly, efficiently and securely. IBM’s breakthrough innovations in semiconductors, AI, quantum computing, industry-specific cloud solutions and consulting deliver open and flexible options to our clients. All of this is backed by IBM’s legendary commitment to trust, transparency, responsibility, inclusivity and service. Visit www.ibm.com for more information.
Media ContactLorraine BaldwinIBM [email protected]
Willa HahnIBM [email protected]
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View original content:https://www.prnewswire.co.uk/news-releases/ibm-government-of-canada-government-of-quebec-sign-agreements-to-strengthen-canadas-semiconductor-industry-302128212.html
Artificial Intelligence
HITACHI ACQUIRES MA MICRO AUTOMATION OF GERMANY IN EFFORT TO ACCELERATE GLOBAL EXPANSION OF ROBOTIC SI BUSINESS IN THE MEDICAL AND OTHER FIELDS
HOLLAND, Mich., April 26, 2024 /PRNewswire/ — Hitachi Ltd. (TSE: 6501, “Hitachi”) has signed a stock purchase agreement on April 26 to acquire all shares of MA micro automation GmbH (“MA micro automation”, headquartered in St. Leon-Rot, Germany) from MAX Management GmbH (a subsidiary of MAX Automation SE). MA micro automation is a leading provider of robotic and automation technology (robotic SI) including high-speed linear handling systems, high-precision assembly lines, and high-speed vision inspection technology for Europe, North America, and Southeast Asia, for EUR 71.5M million. The transaction is expected to close in the second half of 2024, pending completion of the customary regulatory filings. After the acquisition is completed, MA micro automation will join JR Automation Technologies, LLC (“JR Automation”), a market leader in providing advanced automation solutions and digital technologies in the robotic system integration business for North America, Europe, and Southeast Asia as a continued effort to expand the company’s global presence.
MA micro automation is a technology leader for automation solutions within micro-assembly. Through its state-of-the-art proprietary high-speed and high-precision automation know-how, combined with unique optical image inspection capabilities, MA micro automation serves high-growth med-tech automation end-markets, covering the production, assembly, and testing medical and optical components including contact lenses, IVD and diabetes diagnostics consumables, and injection molding for medical use. The company was established in 2003 through a carve-out from Siemens*1 and since 2013 has been part of the MAX Automation group.
JR Automation is a leading provider of intelligent automated manufacturing technology solutions, serving customers across the globe in a variety of industries including automotive, life sciences, e-mobility, consumer and industrial products. With over 20 locations between North America, Europe, and Southeast Asia, the leading integrator offers nearly 2 million square feet (185,806 sq. m) of available build and engineering floorspace. This acquisition allows JR Automation to further grow and strengthen both the company’s geographical footprint and their continued commitment on expanding support capabilities within the European region and medical market vertical.
“MA micro automation provides engineering, build and support expertise with established capabilities in complex vision applications, high-speed and high-precision automation technologies. When integrated with JR Automation’s uniform global process and digital technologies, this partnership will further enhance our ability to deliver added value and support to all of our customers worldwide and continue to grow our capabilities in the medical market,” says Dave DeGraaf, CEO of JR Automation. “As we integrate this new dimension, impressive talents and abilities of the MA micro automation team we further enhance our ability to serve our customers, creating a more robust and globally balanced offering.”
With this acquisition, Hitachi aims to further enhance its ability to provide a “Total Seamless Solution*2” to connect manufacturer’s factory floors seamlessly and digitally with their front office data, allowing them to achieve total optimization and bringing Industry 4.0 to life. This “Total Seamless Solution” strategy links organizations’ operational activities such as engineering, supply chain, and purchasing to the plant floor and allows for real time, data-driven decision-making that improves the overall business value for customers.
Kazunobu Morita, Vice President and Executive Officer, CEO of Industrial Digital Business Unit, Hitachi, Ltd. says, “We are very pleased to welcome MA micro automation to the Hitachi Group. The team is based in Europe, providing robotic SI to global medical device manufacturing customers with its high technological capabilities and will join forces with JR Automation and Hitachi Automation to strengthen our global competitiveness. Hitachi aims to enhance its ability to provide value to customers and grow alongside them by leveraging its strengths in both OT, IT, including robotic SI, and “Total Seamless Solution” through Lumada*3’s customer co-creation framework.”
Joachim Hardt, CEO MA micro automation GmbH says, “Following the successful establishment and growth of MA micro automation within the attractive automation market for medical technology products, we are now opening a new chapter. Our partnership with Hitachi will not only strengthen our global competitive position, but we will also benefit from joint technological synergies and a global market presence. We look forward to a synergistic partnership with Hitachi and JR Automation.”
Outline of MA micro automation
Name
MA micro automation GmbH
Head Office
St. Leon-Rot, Germany
Representative
Joachim Hardt (CEO)
Outline of Business
Automation solutions within micro-assembly
Total no. of Employees:
Approx. 200 (As of April 2024)
Founded
2003
Revenues (2023)
€ 46.5 million
Website
*1
“Siemens” is a registered trademark or trademark of Siemens Trademark GmbH & Co. KG in the U.S. and other countries.
*2
“Total Seamless Solution” is a registered trademark of Hitachi, Ltd. in the U.S. and Japan.
*3
Lumada: A collective term for solutions, services and technologies based on Hitachi’s advanced digital technologies for creating value from customers’ data accelerating digital innovation. https://www.hitachi.com/products/it/lumada/global/en/index.html
About JR AutomationEstablished in 1980, JR Automation is a leading provider of intelligent automated manufacturing technology solutions that solve customers’ key operational and productivity challenges. JR Automation serves customers across the globe in a variety of industries, including automotive, life sciences, aerospace, and more.
In 2019, JR Automation was acquired by Hitachi, Ltd. In a strategic effort towards offering a seamless connection between the physical and cyber space for industrial manufacturers and distributers worldwide. With this partnership, JR Automation provides customers a unique, single-source solution for complete integration of their physical assets and data information, offering greater speed, flexibility, and efficiencies towards achieving their Industry 4.0 visions. JR Automation employs over 2,000 people at 21 manufacturing facilities in North America, Europe, and Asia. For more information, please visit www.jrautomation.com.
About Hitachi, Ltd.Hitachi drives Social Innovation Business, creating a sustainable society through the use of data and technology. We solve customers’ and society’s challenges with Lumada solutions leveraging IT, OT (Operational Technology) and products. Hitachi operates under the 3 business sectors of “Digital Systems & Services” – supporting our customers’ digital transformation; “Green Energy & Mobility” – contributing to a decarbonized society through energy and railway systems, and “Connective Industries” – connecting products through digital technology to provide solutions in various industries. Driven by Digital, Green, and Innovation, we aim for growth through co-creation with our customers. The company’s revenues as 3 sectors for fiscal year 2023 (ended March 31, 2024) totaled 8,564.3 billion yen, with 573 consolidated subsidiaries and approximately 270,000 employees worldwide. For more information on Hitachi, please visit the company’s website at https://www.hitachi.com.
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Artificial Intelligence
$10 million Artificial Intelligence Mathematical Olympiad Prize appoints further advisory committee members
D. Sculley, Kevin Buzzard, Leo de Moura, Lester Mackey and Peter J. Liu appointed to the advisory committee for the Artificial Intelligence Mathematical Olympiad Prize.
LONDON, April 26, 2024 /PRNewswire/ — XTX Markets’ newly created Artificial Intelligence Mathematical Olympiad Prize (‘AIMO Prize’) is a $10mn challenge fund designed to spur the creation of a publicly shared AI model capable of winning a gold medal in the International Mathematical Olympiad (IMO).
XTX Markets is delighted to announce the appointment of five further advisory committee members. This group brings great expertise in machine learning, including D. Sculley, the CEO of Kaggle; Lester Mackey, a Principal Researcher at Microsoft Research and a Macarthur Fellow; and Peter J. Liu, a research scientist at Google DeepMind.
Prolific mathematicians Kevin Buzzard, who achieved a perfect score in the International Mathematical Olympiad, and Leo De Moura who is the Chief Architect for Lean, the automated reasoning tool, also join the advisory group.
They join the existing advisory committee members Terence Tao and Timothy Gowers, both winners of the Fields Medal, as well as Dan Roberts, Geoff Smith and Po-Shen Loh.
The AIMO Advisory Committee will support the development of the AIMO Prize, including advising on appropriate protocols and technical aspects, and designing the various competitions and prizes.
Simon Coyle, Head of Philanthropy at XTX Markets, commented:
“We are thrilled to complete the AIMO Advisory Committee with the appointments of D., Kevin, Leo, Lester and Peter. Together, they have enormous experience in machine learning and automated reasoning and are already bringing expertise and wisdom to the AIMO Prize. We look forward to announcing the winners of the AIMO’s first Progress Prize soon, and then publicly sharing the AI models to support the open and collaborative development of AI.”
Further information on the AIMO Prize
There will be a grand prize of $5mn for the first publicly shared AI model to enter an AIMO approved competition and perform at a standard equivalent to a gold medal in the IMO. There will also be a series of progress prizes, totalling up to $5mn, for publicly shared AI models that achieve key milestones towards the grand prize.
The first AIMO approved competition opened to participants in April 2024 on the Kaggle competition platform. The first progress prize focuses on problems pitched at junior and high-school level maths competitions. There is a total prize pot of $1.048m for the first progress prize, of which at least $254k will be awarded in July 2024, There will be a presentation of progress held in Bath, England in July 2024, as part of the 65th IMO.
For more information on the AIMO Prize visit: https://aimoprize.com/ or the competition page on Kaggle: https://www.kaggle.com/competitions/ai-mathematical-olympiad-prize/
Advisory Committee member profiles:
D. Sculley
D. is the CEO at Kaggle. Prior to joining Kaggle, he was a director at Google Brain, leading research teams working on robust, responsible, reliable and efficient ML and AI. In his career in ML, he has worked on nearly every aspect of machine learning, and has led both product and research teams including those on some of the most challenging business problems. Some of his well-known work involves ML technical debt, ML education, ML robustness, production-critical ML, and ML for scientific applications such as protein design.
Kevin Buzzard
Kevin a professor of pure mathematics at Imperial College London, specialising in algebraic number theory. As well as his research and teaching, he has a wide range of interests, including being Deputy Head of Pure Mathematics, Co-Director of a CDT and the department’s outreach champion. He is currently focusing on formal proof verification, including being an active participant in the Lean community. From October 2024, he will be leading a project to formalise a 21st century proof of Fermat’s Last Theorem. Before joining Imperial, some 20 years ago, he was a Junior Research Fellow at the University of Cambridge, where he had previously been named ‘Senior Wrangler’ (the highest scoring undergraduate mathematician). He was also a participant in the International Mathematical Olympiad, winning gold with a perfect score in 1987. He has been a visitor at the IAS in Princeton, a visiting lecturer at Harvard, has won several prizes both for research and teaching, and has given lectures all over the world.
Leo de Moura
Leo is a Senior Principal Applied Scientist in the Automated Reasoning Group at AWS. In his spare time, he dedicates himself to serving as the Chief Architect of the Lean FRO, a non-profit organization that he proudly co-founded alongside Sebastian Ullrich. He is also honoured to hold a position on the Board of Directors at the Lean FRO, where he actively contributes to its growth and development. Before joining AWS in 2023, he was a Senior Principal Researcher in the RiSE group at Microsoft Research, where he worked for 17 years starting in 2006. Prior to that, he worked as a Computer Scientist at SRI International. His research areas are automated reasoning, theorem proving, decision procedures, SAT and SMT. He is the main architect of several automated reasoning tools: Lean, Z3, Yices 1.0 and SAL. Leo’s work in automated reasoning has been acknowledged with a series of prestigious awards, including the CAV, Haifa, and Herbrand awards, as well as the Programming Languages Software Award by the ACM. Leo’s work has also been reported in the New York Times and many popular science magazines such as Wired, Quanta, and Nature News.
Lester Mackey
Lester Mackey is a Principal Researcher at Microsoft Research, where he develops machine learning methods, models, and theory for large-scale learning tasks driven by applications from climate forecasting, healthcare, and the social good. Lester moved to Microsoft from Stanford University, where he was an assistant professor of Statistics and, by courtesy, of Computer Science. He earned his PhD in Computer Science and MA in Statistics from UC Berkeley and his BSE in Computer Science from Princeton University. He co-organized the second place team in the Netflix Prize competition for collaborative filtering; won the Prize4Life ALS disease progression prediction challenge; won prizes for temperature and precipitation forecasting in the yearlong real-time Subseasonal Climate Forecast Rodeo; and received best paper, outstanding paper, and best student paper awards from the ACM Conference on Programming Language Design and Implementation, the Conference on Neural Information Processing Systems, and the International Conference on Machine Learning. He is a 2023 MacArthur Fellow, a Fellow of the Institute of Mathematical Statistics, an elected member of the COPSS Leadership Academy, and the recipient of the 2023 Ethel Newbold Prize.
Peter J. Liu
Peter J. Liu is a Research Scientist at Google DeepMind in the San Francisco Bay area, doing machine learning research with a specialisation in language models since 2015 starting in the Google Brain team. He has published and served as area chair in top machine learning and NLP conferences such as ICLR, ICML, NEURIPS, ACL and EMNLP. He also has extensive production experience, including launching the first deep learning model for Gmail Anti-Spam, and using neural network models to detect financial fraud for top banks. He has degrees in Mathematics and Computer Science from the University of Toronto.
About XTX Markets:
XTX Markets is a leading financial technology firm which partners with counterparties, exchanges and e-trading venues globally to provide liquidity in the Equity, FX, Fixed Income and Commodity markets. XTX has over 200 employees based in London, Paris, New York, Mumbai, Yerevan and Singapore. XTX is consistently a top 5 liquidity provider globally in FX (Euromoney 2018-present) and is also the largest European equities (systematic internaliser) liquidity provider (Rosenblatt FY: 2020-2023).
The company’s corporate philanthropy focuses on STEM education and maximum impact giving (alongside an employee matching programme). Since 2017, XTX has donated over £100mn to charities and good causes, establishing it as a major donor in the UK and globally.
In a changing world XTX Markets is at the forefront of making financial markets fairer and more efficient for all.
View original content:https://www.prnewswire.co.uk/news-releases/10-million-artificial-intelligence-mathematical-olympiad-prize-appoints-further-advisory-committee-members-302128542.html
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