GE Digital

GE Digital is a subsidiary of the American multinational conglomerate corporation General Electric. Headquartered in San Ramon, California, United States, the company provides software and IIoT (Industrial Internet of Things) services to industrial companies.

GE Digital
TypeSubsidiary
IndustrySoftware
FoundedSeptember 14, 2015 (2015-09-14)
Headquarters,
Area served
Worldwide
Key people
  • Patrick Byrne (CEO)
Colin Paris (CTO)
Kathleen McCarthy (CHRO)
Patric McElroy (Chief Software Engineer
Betsy Bingham (SVP Lean & Operations)
Products
  • Advanced Distribution Management Solutions (ADMS) 
  • Advanced Energy Management System (AEMS)
  • Advanced Market Management System (AMMS)
  • Asset Performance Management (APM) Software
  • Data Historian Software
  • Digital Worker software
  • Geospatial Asset Management
  • Grid Analytics Software
  • HMI and SCADA Software
  • Manufacturing Execution Systems (MES)
  • Operations Performance Management (OPM) Software 
  • Remote Operations Software
Brands
Services
  • Industrial Internet of Things (IIoT) Advisory Services
  • Remote Management and Diagnostic Services
  • Architecture and Solution Engineering Services
ParentGeneral Electric
Divisions
  • Manufacturing
  • Power Generation
  • Utilities & Telecom
  • Oil & Gas
Websitewww.ge.com/digital/

GE Digital's primary focus is to provide industrial software and services in four key verticals:

  • Manufacturing applications serving discrete and process industries, as well as water utilities and economy-scale digital transformation projects[1]
  • Electric and Telecommunications Utilities
  • Oil & Gas industry and related adjacent markets (petrochemicals, chemicals manufacturing)[2]
  • Power generation (gas, steam, solar, wind, hydro and related balance of plant operations and service support);

On July 1, 2019, Patrick Byrne joined GE as Chief Executive Officer of GE's Digital business. Mr. Byrne reports to GE Chairman and Chief Executive Officer H. Lawrence Culp Jr., and is responsible for leading GE's digital strategy.[3] On June 3, 2020, Mr. Byrne's role was expanded to include VP Lean Transformation for GE.

History

1980-2010: Automation Software

  • 1980: GE introduces the first Ethernet-enabled protection relay, a device that detects faults in systems.
  • 1986: GE and Fanuc combine to create GE Fanuc Automation Corporation, which manufactures programmable logic controllers—one of the fundamental buildings blocks of what's come to be known as the Industrial Internet of Things.
  • 1995: GE Fanuc launch first HMI/SCADA on a 32-bit system (CIMPLICITY).
  • 1996: Saturn Corp implement CIMPLICITY MMI, MES and SCADA solution.
  • 1999: CIMPLICITY Saturn's implementation mention in Bill Gates book “Business @ the Speed of Thought: Succeeding in the Digital Economy”.
  • 2001: GE Measurement and Control is established. It creates many types of sensors, instruments, and control systems for aerospace, the oil and gas industry, and power generation.
  • 2002: GE Fanuc Automation Completes Acquisition of Intellution (iFIX products).
  • 2003: GE Fanuc Automation Completes Acquisition of Mountain Systems (Historian and Plant Apps products).
  • 2007: GE Fanuc Automation Corporation becomes GE Fanuc Intelligent Platforms.

2011 – 2015: Internal industrial software development

  • 2011: GE establishes a software Center of Excellence focused on developing industrial software.
  • 2013: GE develops Predix, its platform for IIoT applications, designed to help GE businesses transform their operations.

2015 – 2017: Launch of Predix

  • 2016: GE launches Predix to the market, making its suite of applications available to industrial customers and partners globally. GE Digital also announced its acquisition of ServiceMax, to extend Predix and analytics across field service processes.[4] This acquisition closed in January 2017.
  • 2017: GE announced its intended sale of a majority stake of ServiceMax [5]

2018: Plans for standalone business

  • 2018: GE announces plans to establish a new, $1.2 billion independent company focused on building a comprehensive Industrial Internet of Things (IIoT) software portfolio comprising GE Digital, GE Power Digital and GE Grid Solutions.

2019-2020: Refining Focus

  • 2019: GE announces that the APM teams and customer accounts previously part of BHGE will also become part of the ‘NewCo’ announced in 2018.

Following the GE Q3 October earnings call, it was announced that GE will retain its digital business. GE CEO Larry Culp stated: “I'd like to take a moment here to mention GE Digital. This business remains within the GE family, a growing and important P&L in its own right within corporate, which will serve customers in Power, Grid, Oil & Gas and select manufacturing industries.”[6]

Following the announcement, GE Digital CEO Pat Byrne reiterated in an Oct. 31 to customers that GE Digital's primary focus is to provide industrial software and services to four key markets: Electric Utilities and Telecommunications, Power generation (gas, steam, and related plant operations); Oil & Gas industry and related adjacent markets; and Select manufacturing applications and digital transformation projects.

Notable Projects & Collaborations

Digital Twin Blueprints

In March 2020, GE Digital announced the GE Digital Core Digital Twin Blueprint library had exceeded 300 types of industrial assets, used to manage 8000 customer assets remotely via its Industrial Managed Services center.

New York Power Authority (NYPA)

In October 2017, GE announced a wide-ranging software and professional services agreement with the New York State Power Authority (NYPA) to advance NYPA's goal to be the world's first fully digital utility. NYPA intends to work with GE to explore the digitalization of every aspect of its operations, from its 16 generating facilities and 1,400 miles of electricity transmission network, to the more than 1,000 public buildings it monitors throughout the state.

Chery Jaguar Land Rover

2012, Chery Jaguar Land Rover Automotive Co., Ltd. (CJLR) is a 50:50 independent joint venture formed between Chinese auto manufacturer Chery Automobile Co., Ltd. and UK auto manufacturer Jaguar Land Rover. With a factory in Changshu, China, CJLR produces 130,000 high-end luxury vehicles per year. The company uses GE Digital's Proficy MES in their engine manufacturing facility in Changshu, connecting more than 100,000 integration points on a real time basis across 500 machines on the shop floor.

Power System Operation Corporation (POSOCO)

On April 5, 2020, the Prime Minister of India asked citizens to turn off their lights for nine minutes in a show of solidarity in the fight against COVID-19. With meticulous planning by India's Power System Operation Corporation (POSOCO), national and state agencies, and supported by the GE Digital Grid Software team and Advanced Energy Management System (AEMS) solutions, the nation's power grid withstood a 31- gigawatt drop and recovery.[7]

Shanghai Automobile Gear Works (SAGW)

China's SAGW (Shanghai Automobile Gear Works) is a subsidiary of state-owned SAIC Motor Corporation. The company manufactures, markets, and exports automotive transmissions and key components for passenger and commercial vehicles. With 7000 employees across 5 heating treatment lines, SAGW produces more than 3.8 million units annually. SAGW has transformed their manufacturing processes by using GE Digital's Proficy Plant Applications to create a "Process Digital Twin", improving equipment utilization by 20% and reducing inspection costs by 40%. The availability of real-time data has led to a 30% reduction in inventory and an 80% reduction in required storage space.[8]

WACKER

WACKER Chemical Corporation is a global manufacturer of highly developed speciality chemicals. In Charleston, Tennessee, WACKER produces up to 20,000 tons of polycristaline silicon each year, a critical component for the solar photovoltaic and wider electronics sector. By law, critical assets, such as the pressure vessels WACKER uses in their manufacturing process, must be maintained every two years. WACKER's use of APM from GE Digital extends pressure vessel scheduled maintenance from every two years to a maximum of every 10 years, saving millions of dollars annually.[9]

References

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