协同验证

SoC设计中基于Linux协同验证的研究和实现

Research and Realization of Co-verification Based on Linux in SoC Design

面向SoC的软硬件协同验证平台设计

Design of HW / SW Co-verification Platform for SoC

基于Transaction模式的SoC软硬件协同验证策略

Co-verification methodology of SoC hardware and software based on transaction level

基于SoC设计的软硬件协同验证方法学

Methodology of SoC Design using Hardware / Software Co-simulation

一种融合FPGA和ISS技术的软硬件协同验证方法

Hardware / Software co-verification solution integrated FPGA and ISS

面向SoC开发的协同验证平台的实现方法

Implement Method of Co-verification Platform on SoC

SoC软硬件协同验证中的软件仿真

Software Simulation of SoC Co-verification

本课题开发的前端系统已经用于SoC软硬件协同验证系统中。

The former system is applied in the SoC validation system . It has been applied generally .

基于PowerPC的SoC软硬件协同验证平台

A SoC Hardware / Software Co-Verification Platform Based on PowerPC Processor

一种基于ISS的软硬件协同验证环境

A Hardware-Software Co-verification Environment Based on Instruction Set Simulator

根据DSP处理器的不同验证和测试要求，研制了一种可重用的软硬件协同验证和测试平台。

To meet different requirement of co-simulation , co-verification and testing for digital signal processor ( DSP ), A reusable software-hardware co-verification and test platform for DSP is proposed .

SoC系统复杂性的增加以及产品上市时间的日益迫切，使得软硬件协同验证方法在SoC系统设计中得到了更多的重视和关注。

As the design complexity increases and the time-to-market shrinks , it becomes increasingly important to have a development environment that supports hardware / software co-verification .

本文采用软硬件协同验证的方法，通过由C语言编写的高级程序编译生成CPU执行的二进制代码，生成测试激励，验证系统的功能。

In this paper , we use hardware and software co-verification way to verify system functionality . Write C language programs , compiled to binary code executed by the CPU to generate test stimulus .

然后，讨论了SoC设计中软硬件协同验证的意义和实现策略。

Thirdly , we discussed the significance and implementation strategies of co-verification . We adopted the combination of HDL simulator and FPGA prototype to validate system level design .

快速系统原型验证的本质在于快速地实现SoC设计中的硬件模块，让软件模块在真正硬件上高速运行，即实现SoC设计的软硬件协同验证。

The essential of Rapid System Prototype verification is to implement the hardware module of SoC rapidly , make the sofeware module which on the real hardware running in high speed .

面向对象的技术被引入并应用到SoC设计中来，从系统的建模、设计空间探索到软硬件协同验证，贯穿于整个SoC设计过程中。

The OO ( Oriented Object ) technique is introduced and applied into the SoC design , from system modeling , design space research to hardware / software co-verification , the whole design flow .

本文建立了一种基于硬件加速器FPGA和指令集模拟器ISS对嵌入式系统功能进行软硬件协同验证的方案，并对该方案进行了深入的探讨和研究。

This paper establishes a hardware-software co-verification platform for embedded system , which is based on fast prototyping FPGA and instruction set simulator ISS , and carries out a in-depth exploration and study .

然后详细讨论了MPEG-SoC软硬件协同验证平台的设计。

Then , we discuss the verification platform design of MPEG-SoC .

在系统可靠性测试方面，除了采用传统的随机测试、基准测试集测试外，研究了基于FPGA的软硬件协同验证方法与基于马尔科夫使用模型的测试用例生成方法。

For the reliability testing of the platform , random test and benchmark test are traditional test methods . Apart from that , this paper includes some research on the FPGA-based hardware and software co-verification method as well as the test case generation method based on the Markov usage model .

第三，进行验证平台设计，这款验证平台是基于软硬件协同验证和事务及仿真的验证方法，充分考虑了SoC芯片的共性即总线结构，因此平台的可重用性非常好。

Third , verification platform design , this verification platform is based on the hardware and software co-verification and transaction authentication methods and simulation , full consideration of the SoC chip bus architecture that is common , so the reusability of the platform is very good .

结果表明，该方法的验证速度可以达到200KHz，在针对相同的DUT的情况下，该方法的验证速度比软硬件协同验证的联合验证模式和测试向量模式的速度高出2倍以上。

The result shows that the verification speed is 200 KHz . The verification speed is 2 times faster than that of the other two verification mode for the same DUT .

针对基于虚拟原型机的软件/硬件协同验证环境中软件调试困难的缺点，通过在原协同验证环境中增加虚拟监视控制单元（VMCU）、外部工具等部件，实现了高效的调试手段。

Much difficulties in debug were found in virtual prototyping machine hardware / software co-verification environment . By embedding virtual monitoring and control unit ( VMCU ), ex-ternal tools and other components , efficient debug methods were implemented .

软硬件协同验证中的系统性能评估方法

A Methodology for System Performance Analysis in Hardware / software Co-verification

基于虚拟原型机的软/硬件协同验证中高效调试手段的实现

Implementation of efficient debug in virtual prototyping based on hardware / software co-verification

嵌入式系统软硬件协同验证中软件验证方法

Software Simulation for Hardware / Software Co-Verification

片上系统设计中软硬件协同验证方法的研究

A Hardware-Software Co-verification Method for SOC Design

面向系统功能特性的协同验证方法研究

Collaborative verification scheme for system functional properties

软硬件协同验证同时验证软件和硬件，使用处理器仿真器进行协同验证是其中一种重要的方法。

Co-verification verifies hardware and software simultaneously , and processer emulator is an important direction for co-verification .

首次采用软硬件协同验证平台对芯片方便有效地进行了基本的功能测试。

Basic functional test is conveniently and effectively executed utilizing software / hardware co-verification platform for the first time .

水稻内标准基因检测方法国际协同验证及四种转基因棉花品系特异性检测方法研究

International Validation of Rice Endogenous Reference Gene Detection Systems and Development of PCR Detection Methods of Four Varieties Genetically Modified Cottons