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SpyGlass Lint

Early Design Analysis for Logic Designers

Inefficiencies during RTL design usually surface as critical design bugs during the late stages of design implementation. If detected, these bugs will often lead to iterations, and if left undetected, they will lead to silicon re-spins. The SpyGlass? product family is the industry standard for early design analysis with the most in-depth analysis at the RTL design phase. SpyGlass provides an integrated solution for analysis, debug and fixing with a comprehensive set of capabilities for structural and electrical issues all tied to the RTL description of design.

Introduction

With soaring complexity and size of chips, achieving predictable design closure has become a challenge. A multitude of coding style, structural and electrical design issues can manifest themselves as design bugs and result in design iterations, or worst still¡ªsilicon re-spins. Other tools may detect design bugs but often at late stages of design implementation, after a significant investment in time and effort has already been made. As design teams become geographically dispersed, consistency and correctness of design intent becomes a key challenge for chip integration teams. Emphasis on design reuse and IP integration requires that design elements be integrated and meet guidelines for correctness and consistency.

SpyGlass RTL Signoff Chart with SpyGlass Lint at the chart top

Features and Benefits

  • Sophisticated static and dynamic analysis identifies critical design issues at RTL
  • A comprehensive set of electrical rules check to ensure netlist integrity
  • Includes design reuse compliance checks, such as STARC? and OpenMORE to enforce a consistent style throughout the design
  • Customizable framework to capture and automate company expertise
  • Integrated debug environment enables easy cross-probing among violation reports, schematic and RTL source
  • The most comprehensive knowledge base of design expertise and industry best practices
  • Supports Verilog, VHDL, V2K, SystemVerilog and mixed-language designs
  • Tcl shell for efficient rule execution and design query
  • SoC abstraction flow for faster performance and low noise