. "memory, register file, automatic formal verification, model checking"@en . "An Abstraction of Multi-Port Memories with Arbitrary Addressable Units"@en . "RIV/00216305:26230/13:PU106310" . . "Smr\u010Dka, Ale\u0161" . "S" . "Las Palmas de Grand Canaria" . "An Abstraction of Multi-Port Memories with Arbitrary Addressable Units" . . "60261" . . . "[F8ADAC0CD9E9]" . "Charv\u00E1t, Luk\u00E1\u0161" . . "Proceedings of the 14th Computer Aided Systems Theory" . . . . . "RIV/00216305:26230/13:PU106310!RIV14-MSM-26230___" . "An Abstraction of Multi-Port Memories with Arbitrary Addressable Units"@en . . . . . . "978-84-695-6971-9" . "3"^^ . "An Abstraction of Multi-Port Memories with Arbitrary Addressable Units" . "3"^^ . "The paper describes a technique for automatic generation of abstract models of memories that can be used for efficient formal verification of hardware designs. Our approach is able to handle addressing of different sizes of data, such as quad words, double words, words, or bytes, at the same time. The technique is also applicable for memories with multiple read and write ports, memories with read and write operations with zero- or single-clock delay, and it allows the memory to start with a random initial state allowing one to formally verify the given design for all initial contents of the memory. Our abstraction allows large register-files and memories to be represented in a way that dramatically reduces the state space to be explored during formal verification of microprocessor designs."@en . . "26230" . . "2013-02-10+01:00"^^ . "2"^^ . "Las Palmas de Gran Canaria" . "The Universidad de Las Palmas de Gran Canaria" . . "The paper describes a technique for automatic generation of abstract models of memories that can be used for efficient formal verification of hardware designs. Our approach is able to handle addressing of different sizes of data, such as quad words, double words, words, or bytes, at the same time. The technique is also applicable for memories with multiple read and write ports, memories with read and write operations with zero- or single-clock delay, and it allows the memory to start with a random initial state allowing one to formally verify the given design for all initial contents of the memory. Our abstraction allows large register-files and memories to be represented in a way that dramatically reduces the state space to be explored during formal verification of microprocessor designs." . "Vojnar, Tom\u00E1\u0161" . .