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ARC (processor)

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ARC
DesignerARC International PLC
Bits32-bit, 64-bit
Introduced1996; 28 years ago (1996)
VersionARCv3
DesignRISC
TypeRegister–Register
EncodingVariable (16- and 32-bit)
BranchingCompare and branch
EndiannessBi
ExtensionsAPEX user-defined instructions
Registers
16 or 32 including SP user can increase to 60

ARC (Argonaut RISC Core) embedded system processors are a family of 32-bit and 64-bit reduced instruction set computer (RISC) central processing units (CPUs) originally designed by ARC International.

ARC processors are configurable and extensible for a wide range of uses in system on a chip (SoC) devices, including storage, digital home, mobile, automotive, and Internet of things (IoT) applications. They have been licensed by more than 200 organizations and are shipped in more than 1.5 billion products per year.[1]

ARC processors employ the 16-/32-bit ARCompact instruction set architecture (ISA) that provides good performance and code density for embedded and host SoC applications.

History

The ARC concept was developed initially within Argonaut Games through a series of 3D pipeline development projects starting with the Super FX chip for the Super Nintendo Entertainment System.

In 1995, Argonaut was split into Argonaut Technologies Limited (ATL), which had a variety of technology projects, and Argonaut Software Limited (ASL).

At the start of 1996, the General Manager of Argonaut, John Edelson, started reducing ATL projects such as BRender and motion capture and investing in the development of the ARC concept. In September 1996 Rick Clucas decided that the value of the ARC processor was in other people using it rather than Argonaut doing projects using it and asked Bob Terwilliger to join as CEO; Rick Clucas then took on the role of CTO.

In 1997, following investment by Apax Partners, ATL became ARC International and fully independent from Argonaut Games. Before their initial public offering on the London Stock Exchange, underwritten by Goldman Sachs and five other investment banks, three related technology companies were acquired: MetaWare in Santa Cruz, California (development and modeling software),[2] VAutomation in Nashua, New Hampshire (peripheral semiconductor IP), and Precise Software in Nepean, Ontario (RTOS).

In 2009, ARC International was acquired by Virage Logic. In 2010, Virage was acquired by Synopsys, and ARC processors became part of the Synopsys DesignWare series.

In April 2020 Synopsys released the ARCv3 ISA with 64-bit support.[3]

Design configuration

Designers can differentiate their products by using patented configuration technology to tailor each ARC processor instance to meet specific performance, power and area requirements.

Configuration of the ARC processors occurs at design time, using the ARChitect processor configurator.[4] The core was designed to be extensible, allowing designers to add their own custom instructions that can significantly increase performance or reduce power consumption.

Unlike most embedded microprocessors, extra instructions, registers, and functions can be added in a modular fashion. Customers analyse the task, break down the operations, and then choose the appropriate extensions, or develop their own, to create their own custom microprocessor. They might optimise for speed, energy efficiency, or code density. Extensions can include, for example, a memory management unit (MMU), a fast multiplier–accumulator, a Universal Serial Bus (USB) host, a Viterbi path decoder, or a user's proprietary RTL functions.

The processors are synthesizable and can be implemented in any foundry or process, and are supported by a complete suite of development tools.[5]

See also

References

  1. ^ "Overcoming the power/performance paradox in processor IP". Tech Design Forums. Retrieved 13 August 2014.
  2. ^ Ascierto, Jerry (27 September 1999). "ARC Acquires MetaWare". EDN.com. Archived from the original on 21 July 2020.
  3. ^ "Synopsys Introduces New 64-bit ARC Processor IP". Archived from the original on 31 March 2022.
  4. ^ "ARChitect Processor Configurator". Arc.com. Archived from the original on 22 April 2009. Retrieved 2 March 2014.
  5. ^ "Accelerating Development of Performance-Efficient SoCs". synopsys.com. Archived from the original on 4 December 2016. Retrieved 13 August 2014.

Further reading