Embedding Sequential Circuits for Their Polynomial Formal Verification
暫譯: 嵌入序列電路以進行其多項式形式驗證

Name: Embedding Sequential Circuits for Their Polynomial Formal Verification
Price: 3943 TWD
Availability: OutOfStock
Author: Dominik, Caroline
ISBN: 3658501545

Dominik, Caroline

出版商: Springer Vieweg
出版日期: 2026-01-03
售價: $4,150
貴賓價: 9.5 折 $3,943
語言: 英文
頁數: 74
裝訂: Quality Paper - also called trade paper
ISBN: 3658501545
ISBN-13: 9783658501549
相關分類: 邏輯設計 Logic-design

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商品描述

As digital circuits are at the core of most of our everyday technologies, society heavily relies on their precise and predictable behavior. However, this demand for correctness often clashes with the speed of today's design workflows. Whereas a design can be proven to be free of errors based on formal methods, the required time and memory resources of this can often not be predicted. This conflict is addressed by Polynomial Formal Verification (PFV): By selecting adequate data structures and verification techniques, polynomial resource bounds can be proven for the entire procedure so that an efficient verification is guaranteed.

This book adds to this field by applying PFV to circuits with storage elements, also known as sequential circuits. Counter circuits are verified using a polynomial number of steps, even though they have an exponential sequential depth. This is addressed from a theoretical and from a practical point of view.

商品描述(中文翻譯)

隨著數位電路成為我們日常科技的核心，社會對其精確和可預測的行為依賴甚深。然而，對正確性的需求常常與當今設計工作流程的速度相衝突。雖然可以根據形式方法證明設計是無錯誤的，但所需的時間和記憶資源往往無法預測。這一衝突由多項式形式驗證（Polynomial Formal Verification, PFV）來解決：通過選擇適當的資料結構和驗證技術，可以為整個過程證明多項式資源界限，以確保高效的驗證。

本書在這一領域中進一步探討，將PFV應用於具有儲存元件的電路，也稱為序列電路。即使計數器電路具有指數序列深度，仍然可以使用多項式步驟數進行驗證。這一問題將從理論和實踐的角度進行探討。

作者簡介

Caroline Dominik is a doctoral researcher at the Group of Computer Architecture (AGRA) at the University of Bremen, with a research focus on self-explaining cyber-physical systems. She completed her Master's degree in Computer Science in December 2024.