ACM Computing Surveys (CSUR)
Comments on prevention of system deadlocks
Communications of the ACM
The structure of the “THE”-multiprogramming system
Communications of the ACM
Compact finite difference schemes for ocean models: 1. Ocean waves
Journal of Computational Physics
On deadlock in computer systems
On deadlock in computer systems
The coordination of multiple processes in computer operating systems
The coordination of multiple processes in computer operating systems
A hierarchical solution for application level store-and-forward deadlock prevention
SIGCOMM '89 Symposium proceedings on Communications architectures & protocols
A proposal for certain process management and intercommunication primitives
ACM SIGOPS Operating Systems Review
A large-scale dual operating system
ACM '73 Proceedings of the ACM annual conference
SOSP '77 Proceedings of the sixth ACM symposium on Operating systems principles
The Deadlock problem: a classifying bibliography
ACM SIGOPS Operating Systems Review
Scheduling algorithms for avoiding inconsistency in large databases
VLDB '77 Proceedings of the third international conference on Very large data bases - Volume 3
Issues in distributed data base management systems: a technical overview
VLDB '78 Proceedings of the fourth international conference on Very Large Data Bases - Volume 4
| Hi-index | 48.22 |
Mixtures of detection, avoidance, and prevention provide more effective and practical solutions to the deadlock problem than any one of these alone. The individual techniques can be tailored for subproblems of resource allocation and still operate together to prevent deadlocks. This paper presents a method, based on the concept of the hierarchical operating system, for constructing appropriate mixtures and suggests appropriate subsystems for the most frequently occurring resource allocation problems