Intrinsity
Formerly | EVSX |
---|---|
Company type | Private |
Industry | Semiconductors |
Founded | 1997Austin, Texas, United States | in
Defunct | April 2010 |
Fate | Acquired by Apple Inc. |
Headquarters | , |
Website | www |
Intrinsity was a privately held Austin, Texas based fabless semiconductor company; it was founded in 1997 as EVSX on the remnants of Exponential Technology and changed its name to Intrinsity in 2000. It had around 100 employees and supplied tools and services for highly efficient semiconductor logic design, enabling high performance microprocessors with fewer transistors and low power consumption. The acquisition of the firm by Apple Inc. was confirmed on April 27, 2010.[1]
Products
[edit]Intrinsity's main selling point was its Fast14 technology, a set of design tools implemented in custom EDA software, for using dynamic logic and novel signal encodings to permit greater processor speeds in a given process than naive static design can offer.
Concepts used in Fast14 are described in a white paper:[2] and include the use of multi-phase clocks so that synchronisation is not required at every cycle boundary (that is, a pipelined design does not require latches at every clock cycle); 1-of-N encoding where a signal with N states is carried as a voltage on one of N wires with the other N-1 grounded, rather than being carried on log(N) wires which can be in arbitrary states; and a variety of sophisticated routing algorithms including ones which permute the order of the wires in a bundle carrying a 1-of-N signal in such a way as to reduce noise exposure, and ones which allow complicated gates to 'borrow' delay from simple ones to allow a shorter clock cycle than a more pessimistic design approach permits. Converters between the two signal encodings are readily available, and are useful for interfacing to blocks of static logic.
This technology has been used to implement ARM, MIPS and Power ISA cores, which Intrinsity licences under the name of FastCores; the first implementation was FastMATH, a MIPS-based DSP-like microprocessor implemented in 130 nm technology and introduced in 2002.[3] It operates at 15 W power at 2.0 GHz and 1 V, and 6 W power at 1 GHz and 0.85 V; it was awarded Best Extreme Processor in 2003 by Microprocessor Report.[4] The design took 16 months by a team of 45 engineers.
In July 2009, Intrinsity announced that it had developed in collaboration with Samsung a 1 GHz implementation of the ARM Cortex-A8 chip;[5] it had developed a similar high-speed implementation of the Cortex-R4 chip two years earlier.[6]
Customers
[edit]- ATI – for reducing transistor count in GPUs.[7]
- AMCC – for Power ISA based designs reaching 3 GHz.[8]
- LSI Corporation (then Agere Systems) – for high performance and low power macrocell design.[9]
- Samsung - for high-speed, low power processor cores.[10]
References
[edit]- ^ Vance, Ashlee (2010-04-27). "Apple Buys Intrinsity, a Maker of Fast Chips". The New York Times. Retrieved 2012-01-10.
- ^ "Archived copy" (PDF). Archived from the original (PDF) on 2013-07-20. Retrieved 2009-09-16.
{{cite web}}
: CS1 maint: archived copy as title (link) - ^ "Intrinsity Readies 2 GHz Embedded Processors". design-reuse.com. 2002-12-03. Retrieved 2024-03-08.
- ^ "Intrinsity - Intrinsity? Wins Processor of the Year Honors". Archived from the original on 2007-10-08. Retrieved 2007-05-21.
- ^ "Samsung, Intrinsity pump ARM to GHz rate". eetimes.com. 2009-07-26. Retrieved 2024-03-08.
- ^ "ARM moves Cortex-R4 core to dynamic CMOS domino logic for 2X speed boost". embedded.com. 2007-07-23. Retrieved 2024-03-08.
- ^ [1] Archived February 23, 2007, at the Wayback Machine
- ^ "AMCC, Intrinsity developing PowerPC core". Eetimes.com. Archived from the original on 2007-09-29. Retrieved 2012-01-10.
- ^ "Ethernet, Optical Fiber, Wi-Fi, ZigBee, Cellular, 4G, 3G, Backbone, Metropolitan Area Network, MAN, Bluetooth, PAN, WAN, SAN, RF, FCC, Spectrum, XAUI, Hypertransport, | Communications DesignLine". Networksystemsdesignline.com. Archived from the original on 2007-10-09. Retrieved 2012-01-10.
- ^ [2][dead link]