Arteris Ships Arteris NoC Solution 1.6, Lowers Power Requirements, Improves Flexibility, Usability of Network-on-Chip (NoC).New Version of Arteris NoC IP Library and Design Tools Adds New Low Power NoC IP Elements and Software Application Debug To correct a problem in hardware or software. Debugging software means locating the errors in the source code (the program logic). Debugging hardware means finding errors in the circuit design (logical circuits) or in the physical interconnections of the circuits. ; Supports OCP (processor) OCP - Order Code Processor. 2.1 Protocol PARIS Paris, in Greek mythology Paris or Alexander, in Greek mythology, son of Priam and Hecuba and brother of Hector. Because it was prophesied that he would cause the destruction of Troy, Paris was abandoned on Mt. -- Arteris SA, a leading provider of Network-on-Chip (NoC) solutions addressing challenges associated with on-chip communications, today announced immediate availability of its Arteris NoC Solution, Version 1.6. The latest release of the IP library and accompanying tool set incorporates a range of customer-requested features to improve the efficiency and ease-of-use of implementing NoCs for multi-media, telecom infrastructure and wireless SoC designed in leading-edge manufacturing processes down to 45-nanometer (nm). Key to the release is a low-power version of the Arteris NoC IP library, aimed specifically at demanding wireless and consumer applications. Also, as part of this release, Arteris is announcing support for the Open Core Protocol International Partnership (OCP-IP) OCP 2.1 communication protocol. Specific enhancements in the Arteris NoC 1.6 solution include: * Low power version of the Arteris NoC IP library elements for wireless mobile terminal applications and other low power applications. Arteris has introduced hierarchical clock gating at the register or module level, making it the lowest power interconnect available. * New library units including multi-chip link for multi-die SoCs, depleted de·plete tr.v. de·plet·ed, de·plet·ing, de·pletes To decrease the fullness of; use up or empty out. [Latin d switches, power isolator and support for firewall IPs. These NoC elements IPs broaden the range of addressable Reachable. When something is addressable, it can be identified and manipulated independently of its surroundings. For example, screen pixels and RAM memory are addressable. Each of the screen's picture elements can be individually turned on and off, and each of the memory's bytes can be architectures to multi-die SoCs and SoCs with internal hardware security schemes. * Support for multiple Quality of Service strategies, including sophisticated memory scheduler, fixed priority, end-to-end dynamic priority as well as best effort packet delivery. * New Debug on Silicon features. These include a combination of IPs and software tools that allows the use of a NoC as a logic analyzer (1) A device that monitors computer performance by timing various segments of the running programs. The total running time and the time spent in selected program modules is displayed in order to isolate the least efficient code. inside the SoC to debug software issues at the SoC emulation and silicon prototype levels. None of the new features degrade TO DEGRADE, DEGRADING. To, sink or lower a person in the estimation of the public. 2. As a man's character is of great importance to him, and it is his interest to retain the good opinion of all mankind, when he is a witness, he cannot be compelled to disclose the wire efficiency benefits of the Arteris NoC, which is one of the methodology's most significant advantages. "The Arteris NoC Solution 1.6 addresses critical requirements such as low power, support for multiple QoS strategies and the ability to debug NoCs," said Charlie Janac, President and CEO (1) (Chief Executive Officer) The highest individual in command of an organization. Typically the president of the company, the CEO reports to the Chairman of the Board. of Arteris. "In addition, with this release, we are expanding the range of SoC architectures that can benefit from our on-chip communication approach." "We are excited about the low power features of the Arteris NoC Solution 1.6 release. On our M4 project for development of next generation mobile application processors, we have been able to very significantly reduce power utilization of our design compared to earlier approaches," said Rudy Leuwerains, Vice President of Application Architectures at IMEC. New productivity features in Arteris NoC Solution 1.6 The NoCexplorer 1.6 tool dramatically increases the efficiency of NoC use by providing system architects with an easy way to analyze and optimize the NoC interconnect based on data traffic at the earliest stages of a SoC project. With a very light and synthetic traffic modeling capability, architects can analyze system bandwidth, latency and quality of service quickly and accurately. A SystemC output of an NoC instance model is now available to be used in traditional ESL (1) An earlier family of client/server development tools for Windows and OS/2 from Ardent Software (formerly VMARK). It was originally developed by Easel Corporation, which was acquired by VMARK. tools including CoWare and ARM. NoCcompiler, enhanced with a graphical capture and static connectivity checks, allows easier NoC topology capture and configuration. NoCcompiler automatically generates the RTL (Register Transfer Level) A high-level hardware description language (HDL) for defining digital circuits. The circuits are described as a collection of registers, Boolean equations, control logic such as "if-then-else" statements as well as complex event sequences; NoC instance specific to each SoC or its derivative. Release 1.6 improvements also include more checks in the automatically generated test suite. SoC-level debug verification consumes an increasing portion of SoC development time. The new on-silicon trace and debug features in NoCprofiler ensure verification of SoC communication objectives have been met once the NoC is in use in the SoC. Inserting a trace mechanism in the Arteris NoC instance allows easier debugging (programming) debugging - The process of attempting to determine the cause of the symptoms of malfunctions in a program or other system. These symptoms may be detected during testing or use by real users. of the software running on SoC prototype or final chip. About Arteris NoC Arteris broke new ground when it introduced the first commercially available NoC solution in 2005. The Arteris NoC is a three-layer packet switching A network technology that breaks up a message into small packets for transmission. Unlike circuit switching, which requires the establishment of a dedicated point-to-point connection, each packet in a packet-switched network contains a destination address. network that operates inside complex SoCs. The solution uses an innovative IP library of transport units, network interface units and other soft IP blocks that allow Arteris customers to configure their own flexible SoC communication subsystems. The NoC technology improves upon traditional bus-based approaches that must be redesigned for each different type of SoC configuration, and typically use more wires, consume more power with lower performance, while often increasing die size. The Arteris NoC Solution integrates easily with existing 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. design flows through RTL outputs in Verilog, VHDL (VHSIC Hardware Description Language) A hardware description language (HDL) used to design electronic systems at the component, board and system level. VHDL allows models to be developed at a very high level of abstraction. and System C formats, together with synthesis scripts. Important verification tools are supported as well. Pricing The Arteris NoC Solution 1.6 is available on either per project license with a tapeout fee or royalty pricing models. About Arteris Arteris, SA, provides IPs and associated Design Tools to improve performance of SoC architectures for Multimedia, Telecom and Mobile applications compared to incumbent technologies. Arteris' Network on Chip solutions transport and manage the on-chip communications within complex System-on-Chip (SoC) integrated circuits Integrated circuits Miniature electronic circuits produced within and upon a single semiconductor crystal, usually silicon. Integrated circuits range in complexity from simple logic circuits and amplifiers, about 1/20 in. (1. , increasing performance, reducing number of global wires, with lower power utilization while enabling the most complex, IP-laden designs. It allows chip developers to implement efficient and high-performance Network-on-Chip (NoC) designs, overcoming limitations of traditional layered or pipelined bus-based architectures. Arteris' technology is scaleable in terms of the number of IP blocks designers can network, as well as with deep submicron silicon manufacturing processes. The NoC solutions are compatible with existing design flows and with IP interface standards. The international company operates globally with headquarters in Paris, France and offices in Boston and San Jose, California San Jose (IPA: /ˌsænhoʊˈzeɪ/) is the third-largest city in California, and the tenth-largest in the United States. It is the county seat of Santa Clara County. . Arteris has raised more than $12 million in equity investment from an international set of venture capitalists, including Crescendo Ventures, Techno Venture Management and Ventech. More information can be found at www.arteris.com. Arteris, the Arteris logo, NoCcompiler, NoCexplorer are trademarks of Arteris SA. All other trademarks or registered trademarks are the property of their respective owners. |
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