Open-Silicon

Open-Silicon
Industry semiconductors, electronics
Founded 2003
Headquarters Milpitas, California, USA
Products ASICs, System-on-a-chip, Integrated circuits
Number of employees
400 as of 2013
Website www.open-silicon.com

Open-Silicon is a semiconductor solutions company founded in 2003 to provide traditional ASIC design, derivative and platform SoCs, and production handoffs where Open-Silicon provides manufacturing operations.

Corporate history

Open-Silicon was founded in 2003. The idea was to select best-in-class technology from the open market and apply it through an engineering process focused on three goals: low cost, high schedule predictability, and high reliability. Initial funding was provided by Sequoia Capital, Norwest Venture Partners, and InterWest Partners.[1] Additional funding from those partners, and new partners Artis Capital and Bridgescale Partners, brought the total venture funding in four rounds of financing to almost $46M. In December 2007 Unicorn Investment Bank acquired 75% of Open-Silicon for $190M, with the rest of the company employee-owned.[2]

In May 2007, Open-Silicon acquired Zenasis Technologies, a maker of processor optimization EDA software.[3] This technology has become the core of Open-Silicon's MAX Technologies.[4] This technology has also been expanded by Open-Silicon to focus on low power design and process variability management.[5]

In 2008 and 2009, Open-Silicon received the "Most Respected Private Semiconductor Company" Award from the Global Semiconductor Alliance (GSA).[6][7]

In 2009 Open-Silicon acquired design services firm Silicon Logic Engineering (SLE). This acquisition has enhanced the company's derivative IC design capabilities.[8] In 2010 the company opened new facilities in Research Triangle Park, North Carolina, and Pune, India, to provide additional support for derivative IC design.

In 2012, Open-Silicon acquired and grew substantial design operations in Pakistan and Taiwan.

Locations

Open-Silicon has the following principal locations:

Industry impact

Open-Silicon has been instrumental in establishing a new semiconductor segment known as the Fabless ASIC market. Core to the company is the OpenMODEL, which allows customers to view and make decisions about their ASIC supply chain. In the five years from 2003–2008, Open-Silicon completed more than 100 designs.[9]

With its front-end design capabilities growing,[10][11] Open-Silicon now provides derivative design solutions for the new design-lite industry segment. In 2011, Open-Silicon announced a relationship with Micron to develop derivative IC products for the Micron Hybrid Memory Cube technology[12] and later became a founding member of the Hybrid Memory Cube Consortium.[13]

Products and services

Open-Silicon's business model is called the OpenMODEL.[14] The OpenMODEL gives customers the option of selecting their IP from the open market, with Open-Silicon qualifying and supporting that IP. In addition to IP, Open-Silicon has relationships with multiple foundries and test and packaging suppliers to maximize customer flexibility.

As part of the OpenMODEL, Open-Silicon offers a variety of IC design and manufacturing services, including product definition, design engineering, wafer fabrication, packaging and assembly, and test engineering. The company offers ASIC products at 180 nm, 130 nm, 90 nm, 65 nm and 45/40 nm 28 nm CMOS process nodes from multiple silicon foundries[15] including TSMC,[16] GlobalFoundries,[17] SMIC, and Fujitsu. IP partners include almost all major open market sources. Open-Silicon was the first adopter of Synopsys's IP OEM Partner Program.[18]

High-Speed Processor Design

Open-Silicon uses the CoreMAX tool, initially acquired from Zenasis Technologies but since expanded, for high-speed processor design. Open-Silicon and partners were able to demonstrate 65 nm processor performance of 1.1 GHz worst case,[19] and 40 nm processor performance of over 2.4 GHz typical case.[20]

Open-Silicon created a Center of Excellence for ARM Technology in 2011 to combine all of the various physical design processor hardening and system design efforts into a single organization.[21] In 2012, Open-Silicon further expanded the Center to include architectural analysis and modeling, pre-silicon prototyping, embedded software, co-silicon system design and test, and post-silicon validation.[22] Utilizing both Cadence and Synopsys place and route tools for processor optimization, in 2012 Open-Silicon was able to achieve 2.2 GHz in 28 nm with an ARM® dual-core Cortex™-A9 [23] and 1.3 GHz for a low-power 40 nm quad-core implementation.[24]

References

  1. "Open-Silicon Inc. Secures $19.5 Million in Funding". March 29, 2004.
  2. "Bahrain Bank Buys Stake in Open-Silicon". December 24, 2007.
  3. "Open-Silicon Acquires Zenasis Hybrid Optimization Technology". May 7, 2007.
  4. "Open-Silicon Introduces MAX Technologies". November 11, 2008.
  5. "When an ASIC Vendor Partners with an EDA Vendor: A New Model". November 12, 2008.
  6. "Global Semiconductor Alliance Announces its 2008 Award Recipients". December 15, 2008.
  7. "Global Semiconductor Alliance Announces its 2009 Award Recipients". December 14, 2009.
  8. "Open-Silicon Acquires Design Services Firm". January 12, 2010.
  9. "Open-Silicon, Inc. Announces 100th Design Tapeout". September 10, 2008.
  10. "Open-Silicon Expands Presence in India With New SoC and Systems Solution Center". November 1, 2010.
  11. "Open-Silicon Expands ASIC Architecture and RTL Design Team to Support Derivative SoC Solutions". October 27, 2010.
  12. "Open-Silicon and Micron Align to Deliver Next-Generation Memory Technology". June 7, 2011.
  13. "Hybrid Memory Cube Consortium Participants".
  14. "Open Silicon thriving and hiring in downturn". January 12, 2009.
  15. "Open-Silicon Partners".
  16. "Open-Silicon joins TSMC's Design Center Alliance". August 26, 2005.
  17. "Open-Silicon and GLOBALFOUDRIES Tapeout 28nm".
  18. "Synopsys Unveils IP OEM Partner Program with Arrow Electronics, Global Unichip and Open-Silicon". November 20, 2008.
  19. "Open-Silicon, MIPS Technologies, and Virage Logic Achieve High Performance ASIC Processor Design". October 27, 2009.
  20. "Open-Silicon, MIPS Technologies, and Dolphin Technology Achieve ASIC CPU Performance of Over 2.4GHz in TSMC 40nm". September 21, 2010.
  21. "Open-Silicon Launches ARM® Center of Excellence". October 24, 2011.
  22. "Open-Silicon Expands Semiconductor Design Solutions". April 26, 2012.
  23. "Cadence Encounter Technologies Enable Open-Silicon to Reach 2.2 GHz Performance on 28nm ARM Dual-Core Cortex-A9 Processor". November 6, 2012.
  24. "Open-Silicon Uses Synopsys IC Compiler to Achieve 1.3GHz Frequency on Quad-Core ARM Cortex-A9 MPCore Processor". October 2, 2012.

External links

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