articleJan 1, 2013Closed access
Path ORAM
University of California, Berkeley · University of Connecticut · +2 more institutions
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Abstract
We present Path ORAM, an extremely simple Oblivious RAM protocol with a small amount of client storage. Partly due to its simplicity, Path ORAM is the most practical ORAM scheme for small client storage known to date. We formally prove that Path ORAM requires log^2 N / log X bandwidth overhead for block size B = X log N. For block sizes bigger than Omega(log^2 N), Path ORAM is asymptotically better than the best known ORAM scheme with small client storage. Due to its practicality, Path ORAM has been adopted in the design of secure processors since its proposal.
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Authors
7Topics & keywords
Topics
Keywords
- Computer science
- Overhead (engineering)
- Binary logarithm
- Path (computing)
- Block (permutation group theory)
- Block size
- Bandwidth (computing)
- Parallel computing
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