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SystemVerilog DPI (Direct Programming Interface) is an interface which can be used to interface SystemVerilog with foreign languages. These foreign languages can be C, C++, SystemC as well as others. DPIs consist of two layers: a SystemVerilog layer and a foreign language layer. Both the layers are isolated from each other.
In 2003, ModelSim 5.8 was the first simulator to begin supporting features of the Accellera SystemVerilog 3.0 standard. [1] In 2005 Mentor introduced Questa to provide high performance Verilog and SystemVerilog simulation and expand Verification capabilities to more advanced methodologies such as Assertion Based Verification and Functional ...
SystemVerilog started with the donation of the Superlog language to Accellera in 2002 by the startup company Co-Design Automation. [1] The bulk of the verification functionality is based on the OpenVera language donated by Synopsys. In 2005, SystemVerilog was adopted as IEEE Standard 1800-2005. [2]
Verilator converts synthesizable Verilog to C++, while C++ library could be compiled into a MEX file using MATLAB interface to C++. This is how Verilog designs can be directly simulated from MATLAB. Using compiled C++ models with MATLAB is faster than using co-simulation interfaces with a separate hardware description language (HDL) simulator ...
For #include guards to work properly, each guard must test and conditionally set a different preprocessor macro. Therefore, a project using #include guards must work out a coherent naming scheme for its include guards, and make sure its scheme doesn't conflict with that of any third-party headers it uses, or with the names of any globally visible macros.
2000-03-28 SystemC V1.0 released; 2001-02-01 SystemC V2.0 specification and V1.2 Beta source code released; 2003-06-03 SystemC 2.0.1 LRM (language reference manual) released; 2005-06-06 SystemC 2.1 LRM and TLM 1.0 transaction-level modeling standard released; 2005-12-12 IEEE approves the IEEE 1666–2005 standard for SystemC; 2007-04-13 SystemC ...
C-to-Verilog tool from University of California, Irvine; Altium Designer 6.9 and 7.0 (a.k.a. Summer 08) from Altium; Nios II C-to-Hardware Acceleration Compiler from Altera; Catapult C tool from Mentor Graphics; Cynthesizer from Forte Design Systems; SystemC from Celoxica (defunct) Handel-C from Celoxica (defunct) DIME-C from Nallatech
The Universal Verification Methodology (UVM) is a standardized methodology for verifying integrated circuit designs. UVM is derived mainly from OVM (Open Verification Methodology) which was, to a large part, based on the eRM (e Reuse Methodology) for the e verification language developed by Verisity Design in 2001.