Functional Programming Languages and Computer Architecture Nancy, France, September 16–19, 1985 / [electronic resource] :
edited by Jean-Pierre Jouannaud.
- Berlin, Heidelberg : Springer Berlin Heidelberg, 1985.
- VIII, 416 p. online resource.
- Lecture Notes in Computer Science, 201 0302-9743 ; .
- Lecture Notes in Computer Science, 201 .
Miranda: A non-strict functional language with polymorphic types -- Data flow graph optimization in if1 -- Strictness analysis — a practical approach -- The categorical abstract machine -- High order programming in extended FP -- Secd-m: a virtual machine for applicative programming -- Cobweb — A combinator reduction architecture -- How to replace failure by a list of successes a method for exception handling, backtracking, and pattern matching in lazy functional languages -- Lazy memo-functions -- An architecture for fast data movement in the FFP machine -- An architecture that efficiently updates associative aggregates in applicative programming languages -- Lambda lifting: Transforming programs to recursive equations -- Optimizing almost-tail-recursive prolog programs -- Designing regular array architectures using higher order functions -- $$v\mathcal\mathcal$$ : An environment for the multi-level specification, analysis, and synthesis of hardware algorithms -- A distributed garbage collection algorithm -- Cyclic reference counting for combinator machines -- Design for a multiprocessing heap with on-board reference counting -- A functional language and modular architecture for scientific computing -- Practical polymorphism -- Program verification in a logical theory of constructions -- Transforming recursive programs for execution on parallel machines -- Compiling pattern matching -- Serial combinators: "optimal" grains of parallelism -- The G-machine: A fast, graph-reduction evaluator.
9783540396772
10.1007/3-540-15975-4 doi
Computer science.
Computer Science.
Processor Architectures.
TK7895.M5
004.1
Miranda: A non-strict functional language with polymorphic types -- Data flow graph optimization in if1 -- Strictness analysis — a practical approach -- The categorical abstract machine -- High order programming in extended FP -- Secd-m: a virtual machine for applicative programming -- Cobweb — A combinator reduction architecture -- How to replace failure by a list of successes a method for exception handling, backtracking, and pattern matching in lazy functional languages -- Lazy memo-functions -- An architecture for fast data movement in the FFP machine -- An architecture that efficiently updates associative aggregates in applicative programming languages -- Lambda lifting: Transforming programs to recursive equations -- Optimizing almost-tail-recursive prolog programs -- Designing regular array architectures using higher order functions -- $$v\mathcal\mathcal$$ : An environment for the multi-level specification, analysis, and synthesis of hardware algorithms -- A distributed garbage collection algorithm -- Cyclic reference counting for combinator machines -- Design for a multiprocessing heap with on-board reference counting -- A functional language and modular architecture for scientific computing -- Practical polymorphism -- Program verification in a logical theory of constructions -- Transforming recursive programs for execution on parallel machines -- Compiling pattern matching -- Serial combinators: "optimal" grains of parallelism -- The G-machine: A fast, graph-reduction evaluator.
9783540396772
10.1007/3-540-15975-4 doi
Computer science.
Computer Science.
Processor Architectures.
TK7895.M5
004.1