EDA Design Page 157

Cadence IUS (Incisive unified simulator) 8.2 USR1 Linux , part of the Incisive platform, provides everything you need to verify today\’s toughest designs. Its single-kernel architecture natively supports Verilog, VHDL, SystemC, SystemC Verification library (SCV), and PSL/Sugar assertions. Incisive includes a comprehensive verification environment including full transaction-level support and unified test generation. You can extend Incisive with other elements of the Incisive platform including Acceleration-on-Demand with Incisive XLD, analog/mixed signal/RF verification using Incisive AMS, and algorithm development and verification using Incisive SPW. Key Features: Offers the ultimate simulation-based speed and efficiency Provides 100x RTL performance through native transaction-level simulation Reduces testbench development up to 50% with transaction-level support, unified test generation, and verification component reuse Decreases debug time up to 25%...

Cadence MMSIM (Virtuoso Multi-Mode Simulation) 7.1 Linux meets the changing simulation needs of designers as they progress through the design cycle–from architecture exploration to analog and RF block-level development and to final analog and mixed-signal full-chip verification. Cadence Virtuoso Multi-Mode Simulation is a comprehensive design and verification solution that combines SPICE, RF, FastSPICE and mixed-signal simulators in a unique shared licensing package. This unified environment not only aids in the design and verification of analog, RF, memory, custom digital and mixed signal SoCs but also address the simulation requirements for all application ICs. Features/Benefits Increases design quality using silicon-accurate device models shared by all simulators and universally supported by all foundry process design kits Shared syntax across all engines minimizes translation when...

电子设计自动化（EDA）软件工具领导厂商Synopsys宣布，其Hercules 2008物理验证套件(PVS)已经实现了先进器件参数测量功能。该功能的开发可支持IBM最新发布的65nm设计工具包，从而帮助IBM晶圆代工客户应用Hercules 2008.09工具包中的版图原理图一致性验证(LVS)规范文件，轻松而准确地将器件特性与IBM流程相关联。 作为65nm设计工具包发布的一部分，最新的Hercules 2008.09设计规则检查(DRC)也可同时提供给IBM晶圆代工客户。这些文件有助于提升精度并优化性能。 IBM全球工程解决方案实施总监Dave Harame表示：“我们已经支持Synopsys Hercules PVS十余年。Synopsys不断地证明了他们有能力满足我们以及我们的晶圆代工客户在向更先进技术节点过渡过程中的需求。” 由于器件继续向65 nm甚至更小的尺寸发展，电路性能的改善需通过应用特殊工艺层改变晶体管特性来实现。然而，这些层的引入带来了更多的复杂计算，增加了测量器件速度、功耗、面积等参数的复杂程度。IBM和Synopsys已经合作发布了可支持以上需求的算法，因此必须增加更多的器件测量命令到Hercules PVS中。这些新的Hercules命令可以馈入IBM的专有计算当中，以提供更高的精度，帮助客户更好地了解65nm设计的性能。 Synopsys可制造性设计营销副总裁Anantha Sethuraman表示：“新出现的技术节点需要如Hercules PVS的持续创新产品，以便准确地为设计团队呈现器件的特性。IBM是Synopsys在验证领域的长期客户和合作伙伴，双方间的合作已经为我们共同的客户提供了重要的功能，即与硅相关的解决方案。” Hercules PVS的新功能现在已经开始提供。 product:Synopsys Hercules 2008.09 Linux Lanaguage:English Platform:/Linux Size:216MB

Silvaco SIMUCAD Analog Mixed Signal (AMS) 2008.09 Linux 完整电路图驱动的模拟、混合信号和RF电路设计环境. Silvaco SIMUCAD AMS 2008.09 Linux is Complete schematic-driven analog, mixed-signal, and RF circuit design environmentProduct:Silvaco SIMUCAD Analog Mixed Signal (AMS) 2008.09 Linux Lanaguage:English Platform:/Linux Size:280MB

Silvaco TCAD 2008.09 Linux  tools start with understanding the physics of the basic semiconductor, dielectric, and conducting materials. The Virtual Wafer Fab technology simulation environment enables the ATHENA process technology simulators and the ATLAS device technology simulators to prepare, run, optimize, and analyze semiconductor experiments to achieve optimal process recipes and device targets.Product:Silvaco TCAD 2008.09 Linux Lanaguage:English Platform:/Linux Size:467MB

Silvaco TCAD 2008.09 Linux64 套件被遍布全球的半导体厂家用于半导体器件和集成电路的研究和开发、测试和生产过程中。Virtual Wafer Fab是TCAD综合环境，Athena是专业的工艺仿真系统，Atla s器件仿真系统，Mercury是快速器件仿真系统。Silvaco 提供了 TCAD Driven CAD Environment ，这一套完整的工具使得物理半导体工艺可以给所有阶段的 IC 设计方法提供强大的动力：制程模拟和器件工艺； SPICE Model 的生成和开发； interconnect parasitics 的极其精确的描述； physically-based 可靠性建模以及传统的 CAD 。所有这些功能整合在统一的框架，提供了工程师在完 整的设计中任何阶段中所做更改导致的性能、可靠性等效果直接的反馈。Product:Silvaco TCAD 2008.09 Linux64 Lanaguage:English Platform:/Linux64 Size:470MB

Simucad is a provider of circuit simulation and CAD software tools used in the design of analog, mixed-signal, and RF integrated circuits. The company was incorporated in Delaware in June 2004 as a spin-off from Silvaco Data Systems.[1] Simucad acquired ownership all of Silvaco\’s simulation and CAD products and intellectual property, most notably the SmartSpice circuit simulator[2].Product:SIMUCAD AMS 2008 Linux64 Lanaguage:english Platform:Winxp/Win7 Size:282MB

Silvaco TCAD 2008.09 tools start with understanding the physics of the basic semiconductor, dielectric, and conducting materials. The Virtual Wafer Fab technology simulation environment enables the ATHENA process technology simulators and the ATLAS device technology simulators to prepare, run, optimize, and analyze semiconductor experiments to achieve optimal process recipes and device targets.Product:Silvaco TCAD 2008.09 Win Lanaguage:English Platform:/win2000/winxp Size:344MB

Silvaco, inc. is a privately owned provider of electronic design automation (EDA) software[1] and TCAD process and device simulation software.[2] Silvaco was founded in 1984 by Dr. Ivan Pesic. It is headquartered in Santa Clara, California with 11 offices worldwide, and in 2006 the company had about 250 employees worldwide. Silvaco provides analog semiconductor process, device and design automation solutions in CMOS, bipolar, SiGe and compound technologies. Customers include leading fabless semiconductor companies, integrated semiconductor manufacturers, foundries, and universities worldwide.Product:Silvaco SIMUCAD IC CAD 2008.09 Win Lanaguage:english Platform:Winxp/Win7 Size:122MB

SmartSpiceRF employs a combination of Time-Domain Shooting and Frequency-Domain Harmonic Balance methods to provide accurate simulation of GHz range RF ICs. It accurately and efficiently simulates harmonic distortion, intermodulation products, gains, noise, oscillator’s phase noise in non-linear circuits using SPICE netlists. Key Features * Performs complete set of periodic and quasi-periodic steady-state analyses for large-signal and small-signal applications – each with full parametric sweep and Monte Carlo control parameters * Time-domain Shooting method to simulate periodic steady-state of highly nonlinear circuits * Time-Frequency domain Envelope analysis of circuits driven by digitally modulated sources * A complete set of digitally modulated signals is supported together with all SmartSpice models for large-signal, small-signal, noise, and parametric analysis * Provides simulations and measurements...