Abstract: A compact, physically secure, high-performance access controller (16, 18) is electrically connected to each access-managed resource (12, 14) or group of resources (10) in a computer system. Whenever access managed resources attempt to establish communications, their associated access controllers exchange sets of internally generated access authorization codes (106, 112, 120, 132, 202, 208, 216, 270, 272) utilizing protocols characterized by multiple random numbers, resource authorization keys, serial number (48, 72) verification, and session authorization keys. Each new session employs different encryption keys derived from multiple random numbers and multiple hidden algorithms. Tables of authorized requesting and responding resources are maintained in a protected memory (34, 38) in each access controller.

Abstract: A compact, physically secure, high-performance access controller (16, 18) is electrically connected to each access-managed resource (12, 14) or group of resources (10) in a computer system. Whenever access managed resources attempt to establish communications, their associated access controllers exchange sets of internally generated access authorization codes (106, 112, 120, 132, 202, 208, 216, 270, 272) utilizing protocols characterized by multiple random numbers, resource authorization keys, serial number (48, 72) verification, and session authorization keys. Each new session employs different encryption keys derived from multiple random numbers and multiple hidden algorithms. Tables of authorized requesting and responding resources are maintained in a protected memory (34, 38) in each access controller.