Lambda lifting: transforming programs to recursive equations
Proc. of a conference on Functional programming languages and computer architecture
Serial combinators: “optimal” grains of parallelism
Proc. of a conference on Functional programming languages and computer architecture
Garbage collection can be faster than stack allocation
Information Processing Letters
Target code generation from G-machine code
Proc. of a workshop on Graph reduction
Evaluating functional programs on the FLAGSHIP machine
Proc. of a conference on Functional programming languages and computer architecture
GRIP—A high-performance architecture for parallel graph reduction
Proc. of a conference on Functional programming languages and computer architecture
Real-time concurrent collection on stock multiprocessors
PLDI '88 Proceedings of the ACM SIGPLAN 1988 conference on Programming Language design and Implementation
Buckwheat: graph reduction on a shared-memory multiprocessor
LFP '88 Proceedings of the 1988 ACM conference on LISP and functional programming
Stacklessness: compiling recursion for a distributed architecture
FPCA '89 Proceedings of the fourth international conference on Functional programming languages and computer architecture
The spineless tagless G-machine
FPCA '89 Proceedings of the fourth international conference on Functional programming languages and computer architecture
The four-stroke reduction engine
LFP '86 Proceedings of the 1986 ACM conference on LISP and functional programming
Efficient compilation of lazy evaluation
SIGPLAN '84 Proceedings of the 1984 SIGPLAN symposium on Compiler construction
Complied Graph Reduction on a Processor Network
Architektur und Betrieb vpn Rechensystemen, 10. GI/ITG-Fachtagung
LFP '84 Proceedings of the 1984 ACM Symposium on LISP and functional programming
Super-combinators a new implementation method for applicative languages
LFP '82 Proceedings of the 1982 ACM symposium on LISP and functional programming
ALICE a multi-processor reduction machine for the parallel evaluation CF applicative languages
FPCA '81 Proceedings of the 1981 conference on Functional programming languages and computer architecture
Multiprocessor execution of functional programs
Multiprocessor execution of functional programs
Continuation-based parallel implementation of functional programming languages
LFP '90 Proceedings of the 1990 ACM conference on LISP and functional programming
Interprocedural register allocation for lazy functional languages
FPCA '95 Proceedings of the seventh international conference on Functional programming languages and computer architecture
GUM: a portable parallel implementation of Haskell
PLDI '96 Proceedings of the ACM SIGPLAN 1996 conference on Programming language design and implementation
pHluid: the design of a parallel functional language implementation on workstations
Proceedings of the first ACM SIGPLAN international conference on Functional programming
Lazy rewriting on eager machinery
ACM Transactions on Programming Languages and Systems (TOPLAS)
PACT '94 Proceedings of the IFIP WG10.3 Working Conference on Parallel Architectures and Compilation Techniques
An Interactive Approach to Profiling Parallel Functional Programs
IFL '98 Selected Papers from the 10th International Workshop on 10th International Workshop
Parallel and Distributed Haskells
Journal of Functional Programming
Pipelined functional tree accesses and updates: scheduling, synchronization, caching and coherence
Journal of Functional Programming
Compiling lazy functional programs for the Java Virtual Machine
Journal of Functional Programming
EQUALS – a fast parallel implementation of a lazy language
Journal of Functional Programming
Efficient compilation of lazy evaluation
ACM SIGPLAN Notices - Best of PLDI 1979-1999
Extending the Haskell foreign function interface with concurrency
Haskell '04 Proceedings of the 2004 ACM SIGPLAN workshop on Haskell
Haskell on a shared-memory multiprocessor
Proceedings of the 2005 ACM SIGPLAN workshop on Haskell
Efficient shared-memory support for parallel graph reduction
Future Generation Computer Systems
Paper: Divide-and-Conquer and parallel graph reduction
Parallel Computing
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