SAN JOSE, Calif., May 10, 2010 — Magma® Design Automation (Nasdaq: LAVA), a provider of chip design software, today announced SiliconSmart® ACE Memory Characterization, the latest addition to the industry-standard SiliconSmart IP characterization and modeling product line. By embedding Magma’s ultra-fast FineSim™ Pro simulator and leveraging Magma’s proprietary optimization technology for memory circuits, SiliconSmart ACE Memory Characterization provides faster, more accurate timing, power and noise characterization of memory instances than competitive tools. With SiliconSmart ACE Memory Characterization, integrated circuit (IC) designers can reduce turnaround time and deliver better results for designs targeted at 28-nanometer (nm) and smaller process nodes. 

Accurate timing, power and noise models for memory instances are required to achieve design closure in today’s system-on-chip (SoC) designs. Memory compilers, which use data-fitting technology through interpolation and extrapolation to generate memory instance models, often fail to meet accuracy requirements. A complete simulation-based re-characterization of such memory-compiler-created memory instances has become the most critical capabilities for an IP characterization tool. The combination of Magma’s SiliconSmart ACE characterization technology and FineSim Pro simulation technology provides an optimized characterization methodology with enough simulation power to acquire measurements for all arcs on all data points and to deliver the required accuracy in the created models. 

“SiliconSmart ACE Memory Characterization provides ease of use through automation, efficiency through optimization and accuracy through simulation, significantly reducing the time and effort to model any memory instance,” said Anirudh Devgan, general manager of Magma’s Custom Design Business Unit. “With its simple and user-friendly functional description and multiple automation techniques, an IP characterization engineer can set up the flow quickly and characterize a memory instance without having deep knowledge of how the memory is designed. By integrating Magma’s industry-leading FineSim Pro simulator into the SiliconSmart ACE characterization tool, Magma not only improves accuracy and speed, but also lowers our customers’ overall cost of owning a memory characterization tool.”    

Faster, More Accurate Memory Characterization

Memory circuits pose a greater simulation challenge than other IP such as standard cells because they incorporate more devices and are more complex. To take into account the multiple power domains and signal coupling caused by the RC network, a memory characterization tool requires a simulator with the accuracy to handle the sensitive analog circuitry, as well as the speed to simulate the numerous simulation decks. At the heart of SiliconSmart ACE memory characterization are the FineSim Pro simulation technology, dynamic circuit reduction through smart netlist pruning, automatic internal node identification, constraint acceleration and template-guided function descriptions for vector generation. Each contributes to ease of setup and also provides unparalleled full simulation-based characterization throughput without loss of accuracy. 

SiliconSmart ACE Memory Characterization addresses these requirements with the following capabilities:

• FineSim Pro simulation technology blends both SPICE simulation and Fast-SPICE simulation into one single circuit simulator. SiliconSmart ACE Memory Characterization takes advantage of its “multi-mode” engine to make appropriate tradeoffs for accuracy and speed. For example, it assigns SPICE simulation to analog circuitry such as sense amps to ensure accuracy, and assigns Fast-SPICE simulation to digital circuitry such as control logic for speed. FineSim Pro’s industry-leading technology for analyzing non-ideal power rails for memory circuits greatly increases overall simulation speed by intelligently partitioning the power rail RC network, signal RCs and MOS transistors.
• Stimuli or vectors to excise a memory circuit for a specific measurement in characterization usually propagate through a specific portion of the circuit. To increase throughput, a memory characterization tool must have the capability to remove the inactive portions of the circuit from the simulation deck. Unlike the traditional simple-but-inaccurate path-based reduction methodology, SiliconSmart ACE memory characterization employs a smart netlist-pruning algorithm that utilizes FineSim Pro simulation for circuit structural analysis that identifies and eliminates non-essential active devices and RCs. The actual simulation deck after this highly efficient dynamic circuit reduction per measurement vector set is much smaller than the original netlist, shortening simulation runtime.
• Constraint measurements such as setup and hold in memory characterization are not only very time-consuming, but also difficult to probe. This is because the data and clock usually meet at an internal node, which is hard to locate in a fully RC-extracted netlist. SiliconSmart ACE Memory Characterization runs the FineSim Pro simulation to monitor toggling behaviors of potential candidates and, after a thorough heuristic analysis, automatically identifies the right internal node for constraint measurement. In addition to the constraint acceleration technology included in SiliconSmart ACE for standard cells, SiliconSmart ACE Memory Characterization includes memory constraint acceleration technology that selectively saves memory states and then intelligently reuses these states to improve runtime over the multiple clock cycle iteration process without any loss of accuracy. 
• Like SiliconSmart ACE, which provides ease of use through automatic function recognition for standard cell characterization, SiliconSmart ACE Memory Characterization reduces the burden of setup by providing a template library to describe various memory functions. This high-level functional description automatically creates all control files and all the necessary simulation vectors for all the arcs for a re-characterization of a memory instance with the same model structure but more accurate numbers through simulation.

Pricing and Availability

SiliconSmart ACE Memory Characterization is an extension to SiliconSmart ACE and is available now. 

About Magma

Magma’s electronic design automation (EDA) software provides the “Fastest Path to Silicon”™  and enables the world’s top chip companies to create high-performance integrated circuits (ICs) for cellular telephones, electronic games, WiFi, MP3 players, digital video, networking and other electronic applications. Magma products are used in IC implementation, analog/mixed-signal design, analysis, physical verification, circuit simulation and characterization. The company maintains headquarters in San Jose, Calif., and offices throughout North America, Europe, Japan, Asia and India. Magma’s stock trades on Nasdaq under the ticker symbol LAVA. Follow Magma on Twitter at www.Twitter.com/MagmaEDA and on Facebook at www.Facebook.com/Magma. Visit Magma Design Automation on the Web at www.magma-da.com. 

• Complete recorder and PC-based workstation in 4U, 19-inch unit
• Extendable synchronization connects multiple units for additional channels
• Provides up to 2 Terabytes of RAID storage per channel
• NTFS recording format simplifies file access, eliminates conversions

UPPER SADDLE RIVER, NJ–May 10, 2010–Pentek, Inc., today announced its Model RTS 2703 Real-Time Recording Instrument, which packs up to 4 Terabytes of removable RAID storage and dual 200 MHz, 16-bit sampling channels into a 4U rack-mount instrument. Both sampling channels use the same start, stop, triggering and clock timing to ensure that the two data sets are fully synchronized. In addition to the data acquisition and recording functions, the instrument forms a complete high-performance Windows XP workstation that can run under standalone operation as well as connect to a gigabit Ethernet network for remote access and control. 

“This instrument is the first to offer two A/Ds with 16-bit resolution and a 200 MHz sampling rate. It’s ideal for radar, communications and storage applications that need high-speed synchronized recording of multiple data channels,” said Chris Tojeira, recording systems product manager at Pentek. “A single instrument can capture two 90 MHz bandwidth signals and users can easily synchronize multiple instruments to increase channel count for beamforming applications.” 

High Performance Data Acquisition and Storage

The two 16-bit data acquisition channels deliver nearly 90 dB of spurious free dynamic range, allowing users to detect small signals of interest surrounded by large interferers. A hardware-driven DMA engine continuously streams data at 200 Msamples/second from each channel to dedicated five-unit RAID arrays with a capacity of 2 TB per channel, ensuring more than an hour of continuous recording without dropping a single sample.  

The storage system incorporates 10 SATA disk drives configured as dual five-unit RAID arrays. The units can offer RAID levels 0, 1, 5, 6 10 and 50 and can be configured to offer redundancy in the recording to ensure that data is never lost. The hot-swappable RAID disks are front-panel accessible, which allows users to readily remove and replace the drives for extended recording or transport to another location. 

Simple Access to Recorded Data

Unlike the proprietary file formats typically used in other high-performance data recording instruments, the RTS 2703 records its data files in the Windows-compatible NTFS file system. This means users can access files with the instrument’s workstation capabilities immediately after recording with no file conversion processing required. Users can also remove the RAID drives from the instrument and use them immediately in another Windows-compatible system with no file conversion or other special software. 

Each data file includes a header containing a time stamp, file size and recording parameters such as channel number and acquisition settings. With long files, users can extract segments of interest from within the file and save them as separate files. Data is accessible off-unit through a variety of mechanisms, including transfers using the built-in USB or gigabit Ethernet ports to external storage or other network-connected computing systems. Users can also copy files to optical disk using the 8X double layer DVD +R/RW drive on the front panel. 

SystemFlow Software

As with other members of Pentek’s RTS 27xx family, the dual-channel recording instrument is fully supported by Pentek’s Model 4990 SystemFlow Instrument Software. This includes a Windows-based graphical user interface (GUI) that provides a simple means to configure and control the instrument. Virtual-instrument push buttons, status indicators, pull-down menus and data-parameter entry windows provide simple and intuitive operation for all functions. Custom configurations can be stored as profiles and later loaded when needed, allowing the user to select pre-configured instrumentation settings with a single click. 

SystemFlow Signal Viewer

SystemFlow also includes a powerful signal viewing and analysis tool, so users can monitor signals before, during and after a recording session. The SystemFlow Signal Viewerincludes a virtual oscilloscope and a virtual spectrum analyzer for detailed signal analysis in both time and frequency domains.  

Advanced signal analysis capabilities include automatic calculators for signal amplitude and frequency, second and third harmonic components, total harmonic distortion (THD) and signal to noise and distortion (SINAD). With time and frequency zoom, panning modes and dual annotated cursors to mark and measure points of interest, the SystemFlow Signal Viewer can often eliminate the need for a separate oscilloscope or spectrum analyzer to monitor signals of interest. 

Pricing and Availability

The price of the Model RTS 2703 Dual-Channel Signal Recording Instrument, including SystemFlow Instrument Software, starts at USD $58,995. Delivery is 10 to 12 weeks ARO.  

About Pentek

Pentek develops, manufactures and markets innovative DSP systems to original equipment manufacturers, distributors and value-added resellers. Pentek offers powerful VME, VPX, VXS,  PMC, XMC, cPCI, PCI, PCIe boards for data acquisition, software radio and digital signal processing featuring Texas Instruments C6000 DSPs, Freescale G4 PowerPCs and Xilinx FPGAs. Pentek’s I/O includes A/Ds, D/As, FPGAs, digital up/downconverters and more. Pentek equips all products with high-performance I/O including gigabit serial interfaces and offers strong DSP software support. 

Albuquerque, New Mexico, May 2010 – Innovasic Semiconductor is pleased to announce the availability of its new RapID Platform connectivity solution for Profinet RT devices. Engineers that need to add Profinet RT to their automation products can now download everything they need to quickly integrate into new or existing product designs. The entire platform can be downloaded directly from the Innovasic website for a risk-free, no cost evaluation. This is not just a demo version – it is fully functional and pre-tested for Profinet conformance including electronic schematics, bill of materials, and layout files, as well as all of the necessary software, stacks, and development environment. Evaluation of the RapID Platform download can be performed on hardware via the Internet or at the customer’s site. 

“Innovasic’s new RapID Platform is a first for the industry” said Keith Prettyjohns, Innovasic’s CEO.  “Engineers can now quickly and easily add Profinet connectivity to their products without wasting time re-inventing the wheel. They can download the entire platform, free of charge for evaluation.  A one-time license fee applies only if the platform is used in production,” he added. 

The solution is centered on Innovasic’s fido1100 communication controller which handles all of the Profinet traffic. The RapID Platform can be used as a “network processor” alongside any host microcontroller. It can also be used as a standalone solution with the customer’s application running directly on the RapID Platform. All software is royalty-free with no hidden fees. The schematic has been carefully designed to provide robust, long-life, industrial-class performance at the lowest possible bill of material (BOM) cost. The Ethernet physical interface includes protection circuitry, bicolor LEDs, and magnetics integrated in the connector. Profinet cycle time is 1ms (minimum) with 1440 bytes for cyclic input data and 1440 bytes for cyclic output data. Alarms are programmable and include Process Alarm, Diagnostic Alarm, and Return of Sub Module. 

The Profinet RT version of the RapID Platform is now available on the Innovasic website. Please go to http://www.innovasic.com to learn more and to download the platform for a free evaluation.