Title :
Survivable information storage systems
Author :
Wylie, Jay J. ; Bigrigg, Michael W. ; Strunk, John D. ; Ganger, Gregory R. ; Kiliççöte, Han ; Khosla, Pradeep K.
Author_Institution :
Dept. of Electr. & Comput. Eng., Carnegie Mellon Univ., Pittsburgh, PA, USA
fDate :
8/1/2000 12:00:00 AM
Abstract :
As society increasingly relies on digitally stored and accessed information, supporting the availability, integrity and confidentiality of this information is crucial. We need systems in which users can securely store critical information, ensuring that it persists, is continuously accessible, cannot be destroyed and is kept confidential. A survivable storage system would provide these guarantees over time and despite malicious compromises of storage node subsets. The PASIS architecture flexibly and efficiently combines proven technologies (decentralized storage system technologies, data redundancy and encoding, and dynamic self-maintenance) for constructing information storage systems whose availability, confidentiality and integrity policies can survive component failures and malicious attacks
Keywords :
data integrity; data privacy; distributed databases; information retrieval systems; information storage; security of data; software architecture; software fault tolerance; PASIS architecture; component failures; continuously accessible information; critical information; data availability; data confidentiality; data encoding; data integrity; data redundancy; decentralized storage system technologies; digitally accessed information; digitally stored information; dynamic self-maintenance; indestructible information; malicious attacks; persistent information; storage node subset compromises; survivable information storage systems; Accidents; Condition monitoring; Cryptography; Degradation; Encoding; Fault tolerant systems; Image storage; Information systems; Redundancy; Scalability;
