Tensilica

Tensilica Inc.
Subsidiary
Industry Semiconductor intellectual property core
Founded 1997
Headquarters San Jose, California
Key people
Chris Rowen, Jack Guedj
Products Microprocessors, Hifi audio, DSP cores
Website ip.cadence.com

Tensilica is a company based in Silicon Valley in the semiconductor intellectual property core business. It is now a part of Cadence Design Systems. Its dataplane processors (DPUs) combine the strengths of CPUs and DSPs and custom logic with 10 to 100 times the performance, making them suited for data-intensive processing tasks.

Tensilica is known for its customizable microprocessor core, the Xtensa configurable processor. Other products include: HiFi audio/voice DSPs with a software library of over 125 codecs from Cadence and over 55 software partners; IVP Image/Video DSP, designed to handle complex algorithms in imaging, video and computer vision; and ConnX family of baseband DSPs ranging from the dual-MAC ConnX D2 to the 64-MAC ConnX BBE64EP.

Tensilica was founded in 1997 by Chris Rowen (one of the founders of MIPS Technologies) and was initially staffed by former employees of several other Silicon Valley processor and electronic design automation companies. It employed Earl Killian, who contributed to the MIPS architecture, as chief software architect for several years.[1] On March 11, 2013, Cadence Design Systems announced its intent to buy Tensilica for approximately $380 million in cash.[2] Cadence completed the acquisition in April 2013, with a cash outlay at closing of approximately $326 million. [3]

Cadence Tensilica products

Cadence Tensilica develops SIP blocks to be included on the dies of products of their licensees, such as system on a chips for embedded systems, particularly in mobile, home entertainment, and communications.

Xtensa configurable cores

An Xtensa DPU (data plane processing unit) can be employed as anything from a small, low-power cache-less microcontroller to a high-performance 16-way SIMD, 3-issue VLIW DSP core.

IP processor vendors such as Tensilica typically offer their licensees the choice between many of the IP core's implementation details: cache size, processor bus width, data and instruction RAMs, memory management and interrupt control. However, Cadence's Xtensa architecture offers a key differentiating feature, a user-customizable instruction set.

Using the supplied customization tools, customers can extend the Xtensa base instruction set by adding new user-defined instructions. Extensions can include SIMD instructions, new register files, and additional data transfer interfaces for multiprocessor communication. After the final processor configuration is made and submitted, Cadence's processor generator service builds the configured Xtensa IP core, processor design kit, and software development kit. This process is highly automated so designers can quickly experiment with different instruction additions, testing the performance improvements and power trade-offs of the various alternatives.

The processor kit contains items necessary to integrate the configured IP into the customer's chip design environment: the core's hardware description (in synthesizeable RTL or physical post-layout form), timing & I/O constraints, requirements for technology-specific RAMs/caches/FIFOs. The software kit is built on the Eclipse-based integrated development environment, and uses a GNU Compiler Collection-derived tool-chain: C/C++ compiler, assembler, linker, debugger. An instruction set simulator enables customers to begin application development before actual hardware is available.

Xtensa instruction set

The Xtensa instruction set is designed to meet the diverse requirements of dataplane processing. This 32-bit architecture features a compact 16- and 24-bit instruction set with modeless switching for maximum power efficiency and performance. The base instruction set has 80 RISC instructions and includes a 32-bit ALU, up to 64 general-purpose 32-bit registers, and six special-purpose registers.

Adoption

AMD's TrueAudio and Unified Video Decoder are ASICs based on Xtensa.

The ESP8266 and ESP32 embedded Wi-Fi chip utilises the Xtensa as its main CPU core.

HiFi Audio and Voice DSP IP

Simplified block diagrams of HiFi Audio Engine and Xtensa LX.

Adoption

AMD TrueAudio, found e.g. in the PlayStation 4, in "Kaveri" desktop APUs and in a very few of AMD's graphics cards, is based on the Cadence Tensilica HiFi EP Audio DSP.[4]

Microsoft HoloLens uses special custom-designed TSMC-fabricated 28nm coprocessor that has 24 Tensilica DSP cores. It has around 65 million logic gates, 8MB of SRAM, and an additional layer of 1GB of low-power DDR3 RAM.[5]

Espressif ESP8266 WIFI IoT SoC integrates Tensilica L106 32-bit micro controller.

History

Company name

The brand name Tensilica is a combination of the word Tensile, meaning capable of being extended, and the word Silica from silicon, the element of which integrated circuits are primarily made.

References

  1. "Technical Advisory Board". Stretch. 2010-11-26. Retrieved 2010-11-26. Earl ... He is the former Chief Architect of Tensilica and Silicon Graphics MIPS division, ...
  2. "Cadence to Acquire Tensilica."
  3. Source: http://ip.cadence.com/news/432/330/Cadence-Reports-First-Quarter-2013-Financial-Results-and-Completes-Acquisition-of-Tensilica
  4. "Everything You Wanted to Know About AMD TrueAudio". Maximum PC. 2013-10-08. Archived from the original on July 11, 2014. Retrieved 2014-07-06.
  5. http://www.theregister.co.uk/2016/08/22/microsoft_hololens_hpu/
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