Electronic systems that are related to human safety need to comply to strict international standards such as the IEC 61508. We present a functional verification methodology for highly parametrizable, continuously operating, safety-critical real-time systems implemented in FPGAs. It is compliant to IEC 61508 and extends it in several ways. We focus on independence between design and verification. Natural language properties and the functional coverage model build the connection between system safety requirements and verification results, providing forward and backward traceability. Our main verification method is Formal Property Verification (FPV), even for Safety Integrity Level 1 and 2. Further, we use constrained-random simulation in Syst...
FPGAs are increasing in complexity and being used as im-portant components of safety-critical system...
This paper describes a proposed method and technology of safety assessment of projects based on fiel...
Tolerance to random hardware failures, required by ISO26262, entails accurate design behavior analys...
The new CERN Radiation MOnitoring Electronics (CROME) system is currently being devel- oped at CERN....
Real-time systems in safety-critical and mission-critical domains have stringent or hard timing cons...
Programmable Logic Devices (PLD) such as Field Programmable Gate Arrays (FPGA) are becoming more pre...
As the ASIC design cost becomes affordable only for very large-scale productions, the FPGA technolog...
The high degree of miniaturization in the electronics industry has been, for several years, a driver...
Mission critical systems at the European Organisation for Nuclear Research (CERN) make extensive use...
The high degree of miniaturization in the electronics industry has been, for several years, a driver...
Mission critical systems at the European Organisation for Nuclear Research (CERN) make extensive use...
This book analyzes the challenges in verifying Dynamically Reconfigurable Systems (DRS) with respect...
AbstractDemands for higher flexibility in aerospace applications has led to increasing deployment of...
Abstract: Functional safety, as addressed in the standard IEC 61508, is a key requirement for a high...
Ambiguously specified requirements can be a source of risk for safety-critical electronic designs. ...
FPGAs are increasing in complexity and being used as im-portant components of safety-critical system...
This paper describes a proposed method and technology of safety assessment of projects based on fiel...
Tolerance to random hardware failures, required by ISO26262, entails accurate design behavior analys...
The new CERN Radiation MOnitoring Electronics (CROME) system is currently being devel- oped at CERN....
Real-time systems in safety-critical and mission-critical domains have stringent or hard timing cons...
Programmable Logic Devices (PLD) such as Field Programmable Gate Arrays (FPGA) are becoming more pre...
As the ASIC design cost becomes affordable only for very large-scale productions, the FPGA technolog...
The high degree of miniaturization in the electronics industry has been, for several years, a driver...
Mission critical systems at the European Organisation for Nuclear Research (CERN) make extensive use...
The high degree of miniaturization in the electronics industry has been, for several years, a driver...
Mission critical systems at the European Organisation for Nuclear Research (CERN) make extensive use...
This book analyzes the challenges in verifying Dynamically Reconfigurable Systems (DRS) with respect...
AbstractDemands for higher flexibility in aerospace applications has led to increasing deployment of...
Abstract: Functional safety, as addressed in the standard IEC 61508, is a key requirement for a high...
Ambiguously specified requirements can be a source of risk for safety-critical electronic designs. ...
FPGAs are increasing in complexity and being used as im-portant components of safety-critical system...
This paper describes a proposed method and technology of safety assessment of projects based on fiel...
Tolerance to random hardware failures, required by ISO26262, entails accurate design behavior analys...