Arteris Introduces Industry's First Products for Building Networks on Chip -NoC-.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. -- Faster, Scalable and More Efficient On-Chip Communications for Complex SoCs Enabled by Arteris NoC Solution(TM) Arteris SA, a start-up founded by communications chip industry veterans and focused on the challenge of on-chip communications, today unveiled its first product offering, a complete solution for creating Networks-on-Chip (NoC). Arteris NoC Solution(TM) is used to connect and manage the communication between the variety of design elements and intellectual property (IP) blocks required in today's complex system-on-chips (SoCs). The company's proprietary IP library utilizes a packet-based switch fabric in conjunction with Arteris NoC specific design tools to generate unique NoC instances. The result is the first commercial NoC solution that overcomes the limitations of traditional bus-based methods, while maintaining compatibility with existing interface standards and design tool flows. While NoC has been an emerging area of academic and research interest, Arteris is the first to offer a commercial solution for chip designers. Like the networking of computers, NoC provides an efficient means to manage communications among any collection of distributed systems Distributed systems (computers) A distributed system consists of a collection of autonomous computers linked by a computer network and equipped with distributed system software. , which in the case of a complex SoC can be individual IP blocks and/or clusters of functionality that all must communicate with each other. The proliferation of tens, even hundreds, of IP blocks on a single chip, as well as the advent of ultra-thin line widths in deep submicron processes, have made traditional on-chip communications methods such as buses an increasingly substantial obstacle in the way of realizing the full potential of SoC implementations. To enable improved system performance, achieve critical timing requirements, and facilitate more efficient IP use (and re-use), Arteris' solution borrows applicable networking techniques and implements them in its NoC Solution. The solution uses fundamental networking units, such as switches and links, in the form of configurable IP blocks, combined with design exploration and compilation tools that generate the completed NoC for common design tool flows, in the form of high-level description formats such as SystemC and synthesizable Verilog or 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. . Arteris' proprietary packet-based NoC Transaction and Transport Protocol (NTTP See NNTP. ) ensures compatibility with all major on-chip SRAM See static RAM. SRAM - static random-access memory blocks and socket standards (AMBA AMBA Area Metropolitana de Buenos Aires (Spanish) AMBA Advanced Microcontroller Bus Architecture AMBA American Mold Builders Association AMBA American Mustang and Burro Association AMBA Association of Master of Business Administration AHB AHB Advanced High-performance Bus AHB Assault Helicopter Battalion AHB Air Historical Branch AHB Attack Helicopter Battalion AHB Automatic Half Barriers AHB Aussie Home Brewers AHB Active Hyper Bass , AMBA AXI AXI Automated X-Ray Inspection (electronics) AXI Association Xpertise Inc (Calgary, AB, Canada) AXI Ada to X-Window System Interface , OCP (processor) OCP - Order Code Processor. 2.0), and also supports key off chip interfaces such as Denali's Databahn (TM) DDR (Double Data Rate) Refers to an SDRAM memory chip that increases performance by doubling the effective data rate of the frontside bus. For more details, see SDRAM. DDR - Double Data Rate Random Access Memory memory controller IP. A point-to-point physical implementation leverages the Globally Asynchronous Refers to events that are not synchronized, or coordinated, in time. The following are considered asynchronous operations. The interval between transmitting A and B is not the same as between B and C. The ability to initiate a transmission at either end. Locally Synchronous (GALS) paradigm, with demonstrated operating frequencies of 750 MHz (MegaHertZ) One million cycles per second. It is used to measure the transmission speed of electronic devices, including channels, buses and the computer's internal clock. A one-megahertz clock (1 MHz) means some number of bits (16, 32, 64, etc. or more in 90nm silicon process, using standard cells libraries and off-the-shelf 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. tools. Among the high level benefits of Arteris' NoC Solution are: --Improved on-chip communication throughput and quality of service resulting into higher SoC performance --Improved complexity/cost ratio to manage the increasing number of transactions on a complex SoC, and scale with future requirements --Improved efficiency of silicon area through the optimal use of on-chip resources dedicated to IP communications A general term for networks that use the IP protocol for voice (VoIP) and video traffic. See IP telephony. --Improved designer productivity by speeding IP integration and re-use, facilitating more efficient design, and providing a faster path to timing closure "On-chip communications is increasingly the most critical challenge in developing complex SoCs. Current approaches simply do not scale with the global wire delay and IP integration issues present on today's feature-rich and IP-laden chips. What is required is a true network on a chip that treats the SoC as a complete system with a variety of local requirements, all of which need to coordinate at the system level," said Alain Fanet, 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. "We have taken lessons learned and technologies developed in the computer networking area and applied them to chip-level design. Many of the concepts are almost identical, and our challenge has been to implement them on-chip in a way that achieves the benefits of a true NoC, while being cost-effective in terms of gate and wire area and as non-disruptive as possible to existing design methodologies. With Arteris NoC Solution, we are confident we are offering a very viable and effective approach to this new class of on-chip communications requirements." Arteris NoC Solution Arteris NoC Solution consists of the Danube Intellectual Property Library that contains a set of configurable building blocks managing all on-chip communications between IP cores in SoC designs, and a suite of design tools for configuring and implementing the IP library as synthesizable 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; . The Danube IP library is comprised of three types of units: Network Interface Units providing interfaces to the IP cores, Packet Transport Units and physical links building up the switch fabric user-defined topology. These units can be configured based on the system objectives and topology requirements. The building blocks implemented in Danube IP use a GALS method to span distance and cross clock boundaries on the chip. An on-chip protocol 'spy' is provided for runtime system-level 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. . The NoCexplorer(TM) exploration tool provides an intuitive and robust environment to capture the dataflow requirements of the IP blocks to be serviced by the NoC and allows the designer to rapidly analyze various NoC topology options to achieve optimal performance and area implementation. It utilizes a very fast dataflow simulation engine and parameterizable dataflow sources and sinks to model the system behavior. The NoCcompiler(TM) design tool creates a database of the specific instance of the NoC. It generates a variety of views of the NoC, in Verilog, VHDL, SystemC, or other standard formats including synthesis scripts. NoCcompiler provides capabilities to ensure design consistency across multiple versions, rules checking, and pre-synthesis area estimation. It produces a datasheet of configured NoC units, including a register map. NoCcompiler's outputs are compatible with standard ASIC (Application Specific Integrated Circuit) Pronounced "a-sick." A chip that is custom designed for a specific application rather than a general-purpose chip such as a microprocessor. design flows, including a SystemC cycle-accurate model, synthesizable RTL descriptions, FPGA-optimized output for system prototyping, and synthesis scripts. Pricing and Availability The Danube NoC IP Library is available as a licenseable IP and pricing is based on customer-specific use requirements. Arteris NoCexplorer and NoCcompiler are priced separately and are available for either Linux or Sun Solaris (version 8). About Arteris Arteris, SA, provides Network on Chip solutions to transport and manage the on-chip communications within complex System-on-Chip (SoC) integrated circuits, increasing performance 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 interconnect approaches such as layered or pipelined bus-based architectures. Arteris' technology is scalable in terms of the number of IP blocks designers can network, as well as with silicon manufacturing process evolution. The NoC solutions are compatible with existing design flows and with IP interface standards. The Paris-based company was founded by semiconductor industry veterans and is backed by an international set of venture capitalists. Arteris has raised more than $12 million in early funding from an international set of venture capitalists, including Crescendo Ventures, Techno Venture Management and Ventech. More information can be found at www.arteris.com. |
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