Datasheets 

VDK for Freescale S32V200 MCU
The VDK for Freescale S32V200 is a software development kit using a virtual prototype of the Freescale S32V234 microcontroller (MCU) as an embedded target. The VDK supports a broad range of use cases including algorithm and software development, system integration and functional safety testing. The VDK can also be used in conjunction with other VDKs to simulate a network of ECUs.

Synopsys Prototyping Solutions for ARM-Based Micro Server SoCs
Synopsys prototyping technologies enable architecture design, application specific processor design and verification, early software development, customer enablement and SoC validation.

ルネサス エレクトロニクス社MCU RH850用VDK
ルネサスRH850 MCU向けVDK は、ルネサス エレクトロニクス株式会社のRH850 マイクロコントローラ(MCU)ファミリのプロトタイプをターゲット・ハードウェアとして使用したソフトウェア開発キットです。

フリースケール社MCU Qorivva用VDK
フリースケール・セミコンダクタ社 Qorivva MCU向けVDKは、Qorivva ベース・マイクロコントローラの仮想プロトタイプを使用したソフトウェア開発キットです。

CoStart for Virtualizer Development Kit (VDK)
CoStart for VDK will help your software development team get to market earlier with our team of experts.

VDK Family for ARM® Processors
Fast Software Bring-Up and Better Debug Control for ARMv7 and ARMv8 Processor-based Designs

CoMET-METeor
CoMET-METeor is a set of tools enabling the creation and deployment of virtual prototypes focused on accelerating real-time software development and system design/validation.

Virtualizer
Virtual Prototypes are fast, fully functional software model of systems under development executing unmodified production code and providing a higher debugging/analysis efficiency.

DesignWare® TLM Library
The Synopsys DesignWare® TLM Library provides product development teams a comprehensive set of standards-based, tool-independent transaction-level models (TLMs) of DesignWare IP that serve as the building blocks of virtual prototypes.

LTE/LTE-A Library
The LTE/LTE-A Physical Layer Simulation Library is a set of ready-to-use simulation systems providing an executable specification of the 3 GPP standard. Being verified against Rohde & Schwarz signal generators, it provides unmatched increase in productivity for wireless physical layer system design.

SPW
SPW is the fastest path from innovation into implementation for digital signal processing systems, applying a model-based design approach.

Synphony Model Compiler
Synphony Model Compiler (SMC) is a high-level synthesis tool that supports model-based design environments such as Simulink/MATLAB from the Mathworks. The Synphony high-level IP model library allows algorithm and hardware engineers to quickly create synthesizable fixed-point, multi-rate algorithms in a familiar, high-level design environment. Then the SMC high-level synthesis engine can be used to create an optimized RTL implementation of these algorithms for ASIC or FPGA.

Synphony C Compiler
Synphony C Compiler is a high-level synthesis tool that provides an automated path from C/C++ in to silicon hardware. Using Synphony C Compiler, design teams can describe algorithms in high-level C/C++ and the quickly create optimized RTL implementations for FPGA or ASIC.

Processor Designer
Synopsys® Processor Designer is an automated, application-specific embedded processor design and optimization environment that slashes months from processor hardware design time and from the creation of application processor-specific software development tools.

Platform Architect
Synopsys Platform Architect is a SystemC TLM standards based graphical environment for capturing, configuring, simulating, and analyzing the system-level performance of next-generation SoC architectures.

SuperSpeed USB 3.0 Transaction-Level Models
The SuperSpeed USB 3.0 transaction-level models (TLM) enable pre-RTL and pre-silicon software development, verification and architecture exploration. The models are TLM representations of the Synopsys DesignWare® SuperSpeed USB 3.0 Device and xHCI Host Controller.

System Studio
System Studio is the high performance model-based algorithm design and analysis tool, combining unmatched simulation performance and highest modeling efficiency, plus industry's best integration into the implementation design and verification flow. Algorithm design is an essential task in signal processing applications such as wireless telephony, multimedia codecs, DSL and cable modems.

Saber Aerospace Overview
Saber is the proven standard for mechatronic system design and verification. Aerospace design teams worldwide use Saber to develop complex mixed-technology systems that must meet stringent performance and reliability requirements.

Saber Aerospace Overview
Saber is the proven standard for mechatronic system design and verification. Aerospace design teams worldwide use Saber to develop complex mixed-technology systems that must meet stringent performance and reliability requirements.



NewsArticlesBlogsDatasheetsSuccess StoriesWhite PapersWebinarsNewsletters