OCP-IP Announces Release of OCP 2.2 Specification.BEAVERTON, Ore. -- Open Core Protocol International Partnership (OCP-IP) today announced the release of the OCP (processor) OCP - Order Code Processor. 2.2 specification. The specification now includes direct support for flexible multi-frequency clocking, support for two-dimensional block burst sequences, new non-blocking (exact) flow control options, more flexible reset behavior, a new security profile to describe the consistent mapping of security-related information, and a new section dedicated to verification. OCP now includes an optional EnableClk signal that indicates which rising edges of a reference clock are to be considered rising edges of the OCP clock. The addition of this signal allows the system to control the effective clock frequency of the interface dynamically without introducing extra outputs from phase-locked loops Phase-locked loops Electronic circuits for locking an oscillator in phase with an arbitrary input signal. A phase-locked loop (PLL) is used in two fundamentally different ways: (1) as a demodulator, where it is employed to follow (and demodulate) frequency or , or requiring additional low-skew clock distribution networks when divided frequency clocks are used. Many SoC applications today implement graphics or video processing Video processing techniques are used in video codecs, video players and other devices. For example—commonly only design and video processing is different in TV sets of different manufactures. subsystems that interact with two-dimensional frame buffers stored in external memory. OCP 2.2 addresses the performance requirements of such subsystems by adding support for two-dimensional block burst sequences. The OCP block burst sequence encodes all of the required information to complete an entire two-dimensional burst to memory in a single request, enabling both higher interface performance and providing memory controllers with the ability to optimize DRAM page accesses to improve memory throughput. New non-blocking flow control options have been added to facilitate fully synchronous design styles. The new parameters are used to set the relative protocol timing of the MThreadBusy, SDataThreadBusy, and SThreadBusy signals so they signal flow control for the following clock cycle. This enhancement allows OCP to continue to offer its unique, non-blocking, multi-threaded flow control as clock frequencies increase. A new section of the specification is integrated which is dedicated to verification, and provides compliance, configuration and functional coverage checks for the OCP interface that helps designers create checking solutions in the language and tools of their choice. OCP-IP believes a standard is only proven through real-world implementations and products. OCP-IP members, companies with world-class SoC design expertise in their own right, have used OCP in numerous SoC designs which have already shipped in many hundreds of million of units. OCP 2.2 utilizes the collective experience of these SoC designers and EDA (1) (Electronic Design Automation) Using the computer to design, lay out, verify and simulate the performance of electronic circuits on a chip or printed circuit board. providers and directly addresses their enhancement recommendations with the new specification. Work on OCP 2.2 was executed by members of the OCP-IP Specification Working Group including: MIPS Technologies (MIPS Technologies, Inc., Mountain View, CA, www.mips.com) Founded in 1984 as MIPS Computer Systems Inc., the company merged with SGI in 1992 and spun off as an independent entity once again in 2000. , Inc., Nokia, Sonics Inc., Texas Instruments, Toshiba and other industry leading companies. "The community's working groups are extremely active and have done a tremendous job rapidly evolving the specification," said Ian Mackintosh, president of OCP-IP. "Adoption of OCP has been dramatic and we are excited to see the new features of OCP 2.2 utilized in real world implementations." About OCP-IP The OCP International Partnership Association, Inc. (OCP-IP), formed in 2001, promotes and supports the Open Core Protocol (OCP) as the complete socket standard ensuring rapid creation and integration of interoperable virtual components. OCP-IP's Governing Steering Committee participants include: Nokia (NYSE NYSE See: New York Stock Exchange :NOK NOK In currencies, this is the abbreviation for the Norwegian Krone. Notes: The currency market, also known as the Foreign Exchange market, is the largest financial market in the world, with a daily average volume of over US $1 trillion. ), Texas Instruments (NYSE:TXN TXN Texas Instruments (stock symbol) TXN Transaction (databases) TXN Tunxi, China (Airport Code) TXN Tarxien (postal locality, Malta) ), Toshiba Semiconductor Group (including Toshiba America TAEC TAEC Toshiba America Electronic Components, Inc. TAEC Thailand Atomic Energy Commission ), and Sonics. OCP-IP is a non-profit corporation delivering the first fully supported, openly licensed, core-centric protocol comprehensively fulfilling system-level integration requirements. The OCP facilitates IP core reusability and reduces design time, risk, and manufacturing costs for SoC designs. VSIA VSIA Virtual Socket Interface Alliance endorses the OCP socket, and OCP-IP is affiliated with VSIA. For additional background and membership information, visit www.OCPIP OCPIP Open Core Protocol International Partnership (Beaverton, OR) .org. NOTE: All trademarks and service marks are the property of their respective owners. |
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