- Stability, Adaptivity, and Dynamic Algorithms Thesis Proposal
- The Data Locality of Work Stealing Umut A. Acar
- The Data Locality of Work Stealing Umut A. Acar
- Dynamizing Static Algorithms, with Applications to Dynamic Trees and History Independence
- Adaptive Memoization Umut A. Acar Guy E. Blelloch Robert Harper
- An Experimental Analysis of Change Propagation in Dynamic Trees # Umut A. Acar + Guy E. Blelloch # Jorge L. Vittes
- SelfAdjusting Computation Umut A. Acar
- Adaptive Functional Programming Umut A. Acar Guy E. Blelloch Robert Harper
- Selective Memoization # Umut A. Acar Guy E. Blelloch Robert Harper
- Speculative N-Way Barriers Lukasz Ziarek Suresh Jagannathan
- Selective Memoization Umut A. Acar Guy E. Blelloch Robert Harper
- Kinetic Algorithms via Self-Adjusting Computation Umut A. Acar1
- Dynamizing Static Algorithms, with Applications to Dynamic Trees and History Independence
- ADAPTIVE UPDATES FOR MAP CONFIGURATIONS WITH APPLICATIONS TO BIOINFORMATICS
- Dynamic Well-Spaced Point Sets Umut A. Acar
- Self-Adjusting Computation with Delta ML Umut A. Acar1
- Extensible Programming with First-Class Cases Matthias Blume Umut A. Acar Wonseok Chae
- Kinetic 3D Convex Hulls via Self-Adjusting Computation (An Illustration)
- Exception Handlers as Extensible Cases Matthias Blume Umut A. Acar Wonseok Chae
- A graph model of data and workflow provenance Max-Planck Institute for Software Systems
- The Data Locality of Work Stealing Umut A. Acar
- A Consistent Semantics of Self-Adjusting Computation
- Self-Adjusting Computation Umut A. Acar
- Imperative Self-Adjusting Computation Umut A. Acar Amal Ahmed Matthias Blume
- A Cost Semantics for Self-Adjusting Computation Ruy Ley-Wild
- Memory Management for Self-Adjusting Computation Matthew A. Hammer Umut A. Acar
- Robust Kinetic Convex Hulls in 3D Umut A. Acar1
- Adaptive Functional Programming Umut A. Acar Guy E. Blelloch Robert Harper
- The Data Locality of Work Stealing Umut A. Acar
- A Dynamic Algorithm for Well-Spaced Point Sets Umut A. Acar
- arXiv:0812.0564v1[cs.PL]2Dec2008 Provenance Traces
- A Proposal for Parallel Self-Adjusting Computation Matthew Hammer Umut A. Acar
- Adaptive Bayesian Inference Umut A. Acar
- A Novel SoC Design Methodology Combining Adaptive Software and Reconfigurable Hardware
- Adaptive Memoization Umut A. Acar Guy E. Blelloch Robert Harper
- Stability, Adaptivity, and Dynamic Algorithms Thesis Proposal
- SVR: Practical Engineering of a Fast 3D Meshing Umut A. Acar1
- Traceable Data Types for Self-Adjusting Computation Umut A. Acar
- A Library for Self-Adjusting Computation Guy Blelloch2
- An Experimental Analysis of Change Propagation in Dynamic Trees Umut A. Acar
- CEAL: A C-Based Language for Self-Adjusting Computation Matthew A. Hammer Umut A. Acar Yan Chen
- A Cost Semantics for Self-Adjusting Computation
- Selective Memoization Umut A. Acar Guy E. Blelloch Robert Harper
- Adaptive Inference on General Graphical Models Umut A. Acar
- Selective Memoization Umut A. Acar Guy E. Blelloch Robert Harper
- Self-Adjusting Computation (An Overview)
- A Consistent Semantics of Self-Adjusting Computation
- Adaptive Functional Programming UMUT A. ACAR
- Selective Memoization Umut A. Acar Guy E. Blelloch Robert Harper
- Adaptive Memoization Umut A. Acar Guy E. Blelloch Robert Harper
- Compiling Self-Adjusting Programs with Continuations Ruy Ley-Wild
- Optimal-time dynamic mesh refinement: preliminary results Umut A. Acar
- Technical Report TTIC-TR-2009-2
- Bottom-Up Logic Programming for Multicores Flavio Cruz, Michael P. Ashley-Rollman, Seth Copen Goldstein, Ricardo Rocha, Frank Pfenning
- Efficient Primitives for Creating and Scheduling Parallel Computations
- Declarative Multicore Programming of Software-based Stateful Packet Processing
