Code-Level Timing Analysis of Embedded Software

被引:0
|
作者
Falk, Heiko [1 ]
Hammond, Kevin [1 ]
Larsen, Kim G. [1 ]
Lisper, Bjorn [1 ]
Petters, Stefan M. [1 ]
机构
[1] Univ Ulm, Inst Embedded Syst Real Time Syst, D-89069 Ulm, Germany
来源
EMSOFT '12: PROCEEDINGS OF THE TENTH AMC INTERNATIONAL CONFERENCE ON EMBEDDED SOFTWARE 2012 | 2012年
关键词
Timing Analysis; WCET; Multi-Core Processors;
D O I
暂无
中图分类号
TP31 [计算机软件];
学科分类号
081202 ; 0835 ;
摘要
Embedded systems are often business- or safety-critical, with strict timing requirements that have to be met for the information-processing. Code-level timing analysis (used to analyse software running on some given hardware w.r.t. its timing properties) is an indispensable technique for ascertaining whether or not these requirements are met. However, recent developments in hardware, especially multi-core processors, and in software organisation render analysis increasingly more difficult, thus challenging the evolution of timing analysis techniques. This special session aims to give an overview over the current state of the art and the future challenges w.r.t. code-level timing analysis and introduces TACLe, a recently started EU-funded networking activity targeting these challenges.
引用
收藏
页码:163 / 164
页数:2
相关论文
共 50 条
  • [31] MICROPROF: Code-level Attribution of Unnecessary Data Transfer in Microservice Applications
    Tariq, Syed Salauddin Mohammad
    Menard, Lance
    Su, Pengfei
    Roy, Probir
    ACM TRANSACTIONS ON ARCHITECTURE AND CODE OPTIMIZATION, 2023, 20 (04)
  • [32] Translating Timing Requirements of Embedded Software Systems Modeled in Simulink To A Timing Analysis Model
    Iyenghar, Padma
    Noyer, Arne
    Engelhardt, Joachim
    Pulvermueller, Elke
    2016 IEEE 21ST INTERNATIONAL CONFERENCE ON EMERGING TECHNOLOGIES AND FACTORY AUTOMATION (ETFA), 2016,
  • [33] Improving Code Density of Embedded Software using a 2-level Dictionary Code Compression Architecture
    Collin, Mikael
    Brorsson, Mats
    2008 13TH ASIA-PACIFIC COMPUTER SYSTEMS ARCHITECTURE CONFERENCE, 2008, : 284 - 291
  • [34] An AADL Contract Language Supporting Integrated Model- and Code-Level Verification
    Hatcliff, John
    Stewart, Danielle
    Belt, Jason
    Robby
    Schwerdfeger, August
    Ada User Journal, 2023, 44 (01): : 49 - 58
  • [35] Qualitative Analyses of Movements Between Task-level and Code-level Thinking of Novice Programmers
    Castro, Francisco Enrique Vicente
    Fisler, Kathi
    SIGCSE 2020: PROCEEDINGS OF THE 51ST ACM TECHNICAL SYMPOSIUM ON COMPUTER SCIENCE EDUCATION, 2020, : 487 - 493
  • [36] Malicious Http Request Detection Using Code-Level Convolutional Neural Network
    Jemal, Ines
    Haddar, Mohamed Amine
    Cheikhrouhou, Omar
    Mahfoudhi, Adel
    RISKS AND SECURITY OF INTERNET AND SYSTEMS (CRISIS 2020), 2021, 12528 : 317 - 324
  • [37] Chronos: A timing analyzer for embedded software
    Li, Xianfeng
    Liang, Yun
    Mitra, Tulika
    Roychoudhury, Abhik
    SCIENCE OF COMPUTER PROGRAMMING, 2007, 69 (1-3) : 56 - 67
  • [38] Security Analysis at Architectural Level in Embedded Software Development
    Dobrica, Liliana
    Pietraru, Radu
    CONTROL ENGINEERING AND APPLIED INFORMATICS, 2009, 11 (02): : 51 - 58
  • [39] Supporting Feature Model Evolution by Lifting Code-Level Dependencies: A Research Preview
    Hinterreiter, Daniel
    Feichtinger, Kevin
    Linsbauer, Lukas
    Praehofer, Herbert
    Gruenbacher, Paul
    REQUIREMENTS ENGINEERING: FOUNDATION FOR SOFTWARE QUALITY (REFSQ 2019), 2019, 11412 : 169 - 175
  • [40] A hybrid timing analysis method based on the isolation of software code block
    Li, Haoxuan
    De Meulenaere, Paul
    Vanherpen, Ken
    Mercelis, Siegfried
    Hellinckx, Peter
    INTERNET OF THINGS, 2020, 11
12345