公开(公告)号：US3488633A

公开(公告)日：1970-01-06

申请号：US3488633D

申请日：1964-04-06

Applicant: IBM

Inventor： KING LEWIS E ,  HOSKINSON WILLIAM C ,  ANNUNZIATA EUGENE J ,  WISE FRANCIS W ,  PIERCE EDWIN B

IPC: G06F12/04 ,  G06F13/12 ,  G11B13/00 ,  G06F1/00 ,  G06F7/00

CPC classification number: G06F12/04 ,  G06F13/122 ,  G06F13/124 ,  Y10T74/2102

公开(公告)号：US3395397A

公开(公告)日：1968-07-30

申请号：US51379465

申请日：1965-12-14

Applicant: IBM

Inventor： KING LEWIS E ,  HOSKINSON WILLIAM C ,  ANNUNZIATA EUGENE J

IPC: G06F12/04 ,  G06F13/12

CPC classification number: G06F12/04 ,  G06F13/122

公开(公告)号：US3626427A

公开(公告)日：1971-12-07

申请号：US3626427D

申请日：1967-01-13

Applicant: IBM

Inventor： MACSORLEY OLIN L ,  HASBROUCK LEO J ,  STETLER WESLEY C ,  HOLLERAN C RICHARD ,  GELLER ALAN R ,  KURTZ CLARK ,  NELSON ROBERT A ,  SMITH GORDON L ,  SPENCER DANA R ,  TIMM JOE F ,  WISSICK WILLIAM P ,  ALLEN RICHARD G ,  DUBOIS THOMAS F ,  HACK GEORGE E ,  ANNUNZIATA EUGENE J ,  HOSKINSON WILLIAM C ,  KING LEWIS E ,  JOHANSEN THORE-JAN

IPC: G06F15/78 ,  G06F9/00 ,  G06F3/00 ,  G06F15/00

CPC classification number: G06F15/78

Abstract: The specification discloses an illustrative embodiment for the invention comprising a large-scale data processing system of the type which is composed of a plurality of quasi-independent units. The environmental data processing system includes a central processing unit or portion, which is herein referred to as a CPU, a plurality of storage units, a plurality of input/output control devices referred to herein as channels, as well as control and maintenance facilities which are found in a power distribution unit, herein referred to as a PDU. The CPU of the environmental system includes a control or instruction unit hereinafter referred to as an I-unit, and an arithmetic and logic or execution unit, hereinafter referred to as an E-unit. The I-unit includes controls for instruction fetching, branching, interruption handling, communication with the input/output channels, and other related functions. The E-unit of the environmental system can perform algebraic and logical operations, moving, shifting, and other functions.

公开(公告)号：US3550133A

公开(公告)日：1970-12-22

申请号：US3550133D

申请日：1969-01-14

Applicant: IBM

Inventor： KING LEWIS E ,  HOSKINSON WILLIAM C ,  ANNUNZIATA EUGENE J ,  WISE FRANCIS W ,  PIERCE EDWIN B

IPC: G06F12/04 ,  G06F13/12 ,  G06F3/00

CPC classification number: G06F13/122 ,  G06F12/04

公开(公告)号：US3432813A

公开(公告)日：1969-03-11

申请号：US3432813D

申请日：1966-04-19

Applicant: IBM

Inventor： ANNUNZIATA EUGENE J ,  JAMES ROBERT S ,  KING LEWIS E ,  PIERCE EDWIN B

IPC: G06F13/12 ,  G06F7/06

CPC classification number: G06F13/122 ,  G06F13/124

公开(公告)号：JPS622743A

公开(公告)日：1987-01-08

申请号：JP10876686

申请日：1986-05-14

Applicant: IBM

Inventor： ANNUNZIATA EUGENE J ,  FARESS II JAMES M ,  STAMMELY THOMAS E

IPC: H04L12/42

公开(公告)号：CA807312A

公开(公告)日：1969-02-25

申请号：CA807312D

Applicant: IBM

Inventor： PIERCE EDWIN B ,  KING LEWIS E ,  JAMES ROBERT S ,  ANNUNZIATA EUGENE J

公开(公告)号：FR2350772A7

公开(公告)日：1977-12-02

申请号：FR7614191

申请日：1976-05-06

Applicant: IBM

Inventor： ANNUNZIATA EUGENE J ,  CHRISTENSEN NEAL T

IPC: G06F12/00 ,  G06F9/38 ,  G06F12/08 ,  G06F13/18 ,  G11C9/06

Abstract: 1531926 Multi-level storage systems INTERNATIONAL BUSINESS MACHINES CORP 6 May 1976 [23 June 1975] 18559/76 Heading G4A Each basic storage module BSM 20 includes sections of an upper, slower access, larger level L3 and a lower, faster access, smaller level L2, paging occurring within each module, and a common control system is arranged to control the interconnection of a plurality of users (processors 12) to the modules 20 so that it is possible to concurrently access all the modules 20 and, when conflict between modules for the same user port arises from concurrent outputs of the upper and lower levels of different modules, priority is granted to the module whose upper level has been accessed. In the system described the fastest access level is formed by the dedicated cache memory L1 of each processor. When data requested by a processor is not in its cache memory L1, the request is extended over the respective bus 33 to a request queue control 15. Each request includes the L3 address, processor identifier and an instruction identifier. Control 15 assigns an available queue slot to each request and identifies the slot by an index 0-7. The high order bits of the L3 address identify one of the BSM's 20 and control 15 passes the address and the assigned slot index to the identified BSM over a bus 26, the address being stored in a register 22 and the slot index in a register 24. Each register 22 is part of a level determining arrangement which includes a L2 directory and which provides a signal LVL on a line 25 indicating whether the requested data is in level L2 (0) or in level L3 (1) of the associated BSM. When a selected BSM is ready to perform the requested data access, it sends the queue index in register 24 over a bus 27 as a response to the priority network 11, all simultaneous responses being ORed together at 28. Priority network 11 comprises a set of gates for each level L2 and L3, each gate in a set corresponding to one of the index responses QIRB0-QIRB7. The gates for level L3 are enabled by the combination of the appropriate QIRB and the corresponding LVL signal on bus 25 provided a higher order (lower index) gate in the same set has not been enabled. The L2 set of gates are only enabled if no L3 gate is enabled whereby in the event of coinciding L2 and L3 responses, L3 is given priority. Network 11 provides the selected index value as output to read the corresponding queue slot, the processor identifier being used to control a cross-bar switching network 17 to complete a connection between the requesting processor and the responding BSM over buses 31, 32, and the instruction identifier and address are passed to the requesting processor so that it is able to associate the data transferred with the instruction which initiated the transfer. Storage level L3 may be monolithic, transistor or core storage. A similar response handling system may be provided for each of a number of subsystems comprising processors and BSM's sharing a data transfer path.

公开(公告)号：FR2405515A1

公开(公告)日：1979-05-04

申请号：FR7826212

申请日：1978-09-05

Applicant: IBM

Inventor： ANNUNZIATA EUGENE J ,  JAMES ROBERT S ,  TAN KWANG G

IPC: G06F12/08 ,  G06F13/00

公开(公告)号：CA1238383A

公开(公告)日：1988-06-21

申请号：CA493208

申请日：1985-10-17

Applicant: IBM

Inventor： ANNUNZIATA EUGENE J ,  FARESS JAMES M II ,  STAMMELY THOMAS E

IPC: H04L12/42 ,  H04B15/00

Abstract: RA985012 LOCAL AREA NETWORK STATION CONNECTOR A wiring methodology for attaching office machines to a communications network includes at least one central wiring facility or concentrator with lobe segments emanating or fanning out in a "Star Fashion" configuration to terminal points within offices. A plurality of switch control elements are provided in the concentrator. When activated, each switch control element inserts a lobe segment and attaches machines into the communications network. Lobe segments not in use are bypassed (disconnected) within the concentrator. A single station connector (SSC) can be used to increase the number of office machines that may be attached to a single lobe segment. In addition, the SSC may be used to configure a mobile Local Area Network (LAN) System without resorting to permanent wiring schemes. CROSS REFERENCE TO RELATED PATENTS, PATENT APPLICATIONS AND ARTICLES U.S. Patent 4,527,216, entitled "Sub-Milliamp Mechanical Relay Control," filed March 16, 1983; issued July 2, 1985 to Thomas E. Stammely and assigned to the assignee of the present invention, describes a circuit arrangement suitable for controlling a bi-stable relay. The circuit arrangement includes a capacitor which is initially charged with a charge that is sufficient to set and reset the bi-stable relay. During the set cycle a portion of the charge is dumped into the set coil to set the relay. During the reset cycle the remaining portion of the charge is dumped into the reset coil thereby resetting the relay.