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Verilog-AMS Integration with P1800 SV Standard

Verilog-AMS Integration with P1800 SV Standard. Srikanth Chandrasekaran Technical Chair, Verilog-AMS Committee. Verilog-AMS Standards Committee – Scope & Purpose. The Verilog-AMS standards committee aims to address the needs of the mixed signal design community

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Verilog-AMS Integration with P1800 SV Standard

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  1. Verilog-AMS Integration with P1800 SV Standard Srikanth Chandrasekaran Technical Chair, Verilog-AMS Committee

  2. Verilog-AMS Standards Committee – Scope & Purpose • The Verilog-AMS standards committee aims to address the needs of the mixed signal design community • Enables top-down design methodology of AMS designs and allows designers to write early behavioral code of the mixed signal systems • Provides capabilities and features to enable system level design and verification • Standards committee comprises of team of experts in the AMS industry • Volunteers comprise of both the developers (EDA tool developers) as well as consumers (design community) • The Verilog-AMS committee has representation from about 10 companies that are either developing tools or mixed signal designs • Ensuring interoperability • Ensures any capability or enhancement done in the analog or the mixed signal part of the AMS language works with existing standards • Interoperability is key: uniform implementation allows designs to be portable across tools

  3. Industry Need for SV-AMS • With P1364 being replaced with P1800, industry is adapting SystemVerilog for design as well as testbenches • Enables top level design methodology & verification with SV testbenches • Need to maintain the ability to simulate mixed signal designs • Industry requires support for a mixed signal verification environment • Vendors are already faced with the issue of how to support SystemVerilog along with existing mixed signal designs • With Verilog-AMS being derived from 1364 Verilog, it is an obvious choice to enable the mixed signal modelling capabilities within SystemVerilog • Need IEEE to address this critical issue • In absence of a standard, vendors will go ahead with individual implementations • Interoperability will become a very key issue • Reconciling “vendor implementations” at later stage will become very difficult challenge.

  4. AMS Activities beyond LRM2.3 • Alignment with SystemVerilog (SV-AMS Integration Efforts) • Having the unified BNF for Verilog-AMS with Verilog 1364-2005 as a subset means we already have some fundamental alignment with System Verilog • Will allow the committee to take the next step and merge the analog and mixed signal constructs with the System Verilog language. • Extending SV assertions to support Analog • Verilog-AMS subcommittee is working on extensions to the current SVA language to support analog assertions • This work would also require some requirements on the P1800 SystemVerilog language • Verilog-AMS main committee working on enhancements and capabilities for mixed signal (mantis database) • This effort will specifically look at the mixed signal items that have not been resolved in LRM2.3 • Eg: multiple power domain support, other analog specific enahcements and minor fixes)

  5. Options for SV-AMS Integration • There are 3 possible options for integrating Verilog-AMS with SV • Option 1: Deep integration of P1800 with Verilog-AMS LRM 2.3.1 • Integration at the syntactic (BNF grammer) as well as semantic integration • Need more commitment from P1800 committee to make this practical • Option 2: Creating a P1800 “dot” standard • Identified enhancements to the P1800 could be incorporated in separate dot standard • Some fundamental enhancements might be proposed to the main P1800 committee • A separate committee will be driving the dot standard efforts (with identified timelines etc) • Need approval from P1800 main committee for any enhancements to SV?? • Option 3: Merge subset of Verilog-AMS (without P1800 conflicts) with System Verilog • Features that enable connectivity level mixing of Verilog-AMS and SV at the top level • Initial first pass document generated on syntax difference between Verilog-AMS & P1800 2009 standard (an early P1800 draft version was used for this purpose) • Document available at: http://www.eda-stds.org/verilog-ams/htmlpages/cdd.html

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