Disk cache—miss ratio analysis and design considerations
ACM Transactions on Computer Systems (TOCS)
Robust Storage Structures for Crash Recovery
IEEE Transactions on Computers - The MIT Press scientific computation series
File access performance of diskless workstations
ACM Transactions on Computer Systems (TOCS)
Key-sequence data sets on indelible storage
IBM Journal of Research and Development
A Crash Recovery Scheme for a Memory-Resident Database System
IEEE Transactions on Computers
Log files: an extended file service exploiting write-once storage
SOSP '87 Proceedings of the eleventh ACM Symposium on Operating systems principles
A trace-driven analysis of the UNIX 4.2 BSD file system
Proceedings of the tenth ACM symposium on Operating systems principles
A distributed file service based on optimistic concurrency control
Proceedings of the tenth ACM symposium on Operating systems principles
Laser optical disk: the coming revolution in on-line storage
Communications of the ACM
Dynamic Data Structures on Optical Disks
Proceedings of the First International Conference on Data Engineering
A reliable object-oriented data repository for a distributed computer system
SOSP '81 Proceedings of the eighth ACM symposium on Operating systems principles
Converting a swap-based system to do paging in an architecture lacking page-referenced bits
SOSP '81 Proceedings of the eighth ACM symposium on Operating systems principles
Transactions: a construct for reliable distributed computing
ACM SIGOPS Operating Systems Review
Phoenix: a safe in-memory file system
Communications of the ACM
A Fault Tolerant Hybrid Memory Structure and Memory Management Algorithms
IEEE Transactions on Computers
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A model paging system is described for write-once optical disk. The paging system checkpoints pages on a nonerasable, failure-resistant medium as a side effect of virtual memory operation. Most pages are already checkpointed at any given time. It is practicable to checkpoint the global state periodically by forcing the write-out of pages that have been modified since their last checkpoint, together with the page tables. The proposed checkpointing algorithm was simulated to evaluate the performance of paging and checkpoint to write-once optical disk. There are plausible values for the operating parameters that make the overhead of checkpointing negligible compared to paging. The lifetime of 1-GB write-once optical disk media used for paging and checkpointing can range up to three months under plausible operating conditions.