Apache Introduces PsiWinder, a Combined Power and Signal Integrity Timing Sign-off Solution.MOUNTAIN VIEW, Calif. -- Apache Design Solutions, the technology leader in physical power integrity solutions for system-on-chip (SoC) designs, today announced PsiWinder, a critical path and clock tree analysis tool that considers crosstalk and dynamic power integrity effects on a chips' timing. For designs at 90nm and 65nm processes, the quality of SoC timing is greatly affected by dynamic noise. Through a seamless integration An addition of a new application, routine or device that works smoothly with the existing system. It implies that the new feature or program can be installed and used without problems. Contrast with "transparent," which implies that there is no discernible change after installation. with Apache's silicon-proven RedHawk power integrity solution and the Nspice high performance Spice engine, PsiWinder delivers an accurate transistor-level view within an easy-to-use cell-based environment. "The consideration of combined power and signal integrity effects requires a transient simulation of instance-based dynamic Vdd/Vss waveforms along with crosstalk noise. Trying to combine these effects in a static timing analysis environment cannot provide sufficient accuracy for signoff. What's required is a time-point-by-time-point Spice-based simulation solution," stated Andrew Yang, 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 Apache. "Apache's industry leadership position in dynamic power integrity enables us to meet the market's need by delivering the Spice-accurate timing sign-off solution for designs at 90nm and below." PsiWinder delivers the following unique capabilities for critical path timing and clock network analysis, including skew (1) The misalignment of a document or punch card in the feed tray or hopper that prohibits it from being scanned or read properly. (2) In facsimile, the difference in rectangularity between the received and transmitted page. and jitter A flicker or fluctuation in a transmission signal or display image. The term is used in several ways, but it always refers to some offset of time and space from the norm. For example, in a network transmission, jitter would be a bit arriving either ahead or behind a standard clock cycle : --Considers signal integrity (crosstalk noise) effects, including aggressor/victim identification, sensitization sensitization /sen·si·ti·za·tion/ (sen?si-ti-za´shun) 1. administration of an antigen to induce a primary immune response. 2. exposure to allergen that results in the development of hypersensitivity. , and window alignment. --Includes power integrity (dynamic voltage drop and ground bounce) effects using RedHawk generated instance-specific Vdd/Vss waveforms. --Supports process corner conditions for each device, alignment and transition of each coupling signal, and the minimum and maximum dynamic voltage drop of each cell for a thorough verification of on-chip variation (OCV OCV Open Circuit Voltage OCV Optical Character Verification (EnSeal proprietary document authentication technology) OCV Out-of-Country Voting OCV On-Chip Variation OCV Oil Control Valve (automotive engines) ). --Provides automated Spice netlisting of SoC critical path and clock networks, including all the parasitics for the nets in the path, coupling capacitance, and coupled aggressor gates. --Increases productivity through an integrated high-performance NSpice with embedded distributed processing capability for overnight turnaround on thousands of paths. --Uses SPICE engine, the golden standard for circuit verification, with advanced nanometer device models. Eliminates pessimism built into standard libraries through a precise calculation of actual signal slope and loading. With PsiWinder, designers are able to quickly and accurately verify the critical path timing and clock tree network for the ultimate timing sign-off of their nanometer designs. Apache will be demonstrating PsiWinder, along with their complete dynamic power integrity solution, at the upcoming Design Automation Conference (DAC See D/A converter and discretionary access control. DAC - Digital to Analog Converter ) in Anaheim, California, June 13-17, in booth #409. Pricing and Availability PsiWinder will be available in Q3 of this year. Annual license pricing varies with configuration and starts at $150,000. Each PsiWinder license includes 10 integrated Nspice engines for distributed simulation of multiple critical paths with LSF LSF Lisofylline, see there and Sun Grid support. It is licensed on Linux, Sun Solaris, and HP-UX HP's version of Unix that runs on its 9000 family. It is based on SVID and incorporates features from BSD Unix along with several HP innovations. (operating system) HP-UX - The version of Unix running on Hewlett-Packard workstations. . About RedHawk RedHawk is a full-chip Vectorless Dynamic(TM) physical power integrity solution for SoC power closure sign-off of 130nm, 90nm, and 65nm designs. Certified by TSMC's 5.0 Reference Flow and correlated with silicon measurements and SPICE, RedHawk addresses dynamic power issues such as simultaneous switching output (SSO See single sign-on and CSO. SSO - single sign-on ) for core, memory, clock, and I/O (Input/Output) The transfer of data between the CPU and a peripheral device. Every transfer is an output from one device and an input to another. See PC input/output. I/O - Input/Output , as well as the effects of on-chip inductance, package RLC RLC Residual lung capacity , and decoupling Decoupling The occurrence of returns on asset classes diverging from their normal pattern of correlation. Notes: Take for example stock and corporate bond returns, which normally rise and fall together. capacitance. RedHawk enables designers to identify dynamic "hot spots hot spots acute moist dermatitis. ," examine the impact on timing, and automatically repair the source of supply noise. With RedHawk's integrated transistor-level characterization and unsurpassed capacity, designers can effectively reach power closure sign-off for high performance SoCs, including those utilizing advanced low-power design techniques such as leakage control, power gating, multiple voltage domains, and multiple threshold transistors. About Nspice Nspice is a high capacity, mixed-domain, next-generation Spice for I/O, signal, and power integrity. For high-speed I/Os and interfaces to multi-port/multi-gigabit systems, Nspice directly takes in S-parameter data for 100+ ports and accurately simulates a combination of IC-package-board-connector-backplane topologies. Nspice is fully Hspice compatible with unprecedented performance and capacity, while delivering true-spice accuracy. About Apache Design Solutions Apache is a provider of innovative next-generation physical power integrity software that accelerates the design process and guarantees the reliability of high performance system-on-a-chip designs. By providing tools for power, timing, and system I/O integrity, Apache enables leading networking, wireless, communication, consumer, and semiconductor companies to develop highly competitive and reliable products. With minimal setup, Apache's physical design integrity products are used early in the design process for 130 nanometer designs and below, delivering the highest standards of computational performance, capacity handling, and integrity. For more information, including a white paper on dynamic analysis, visit www.apache-da.com. Apache Design Solutions, NSPICE, PsiWinder, RedHawk-SDL, RedHawk-EV, SkyHawk, and Vectorless Dynamic are trademarks of Apache Design Solutions, Inc. |
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