公开(公告)号：DE69032632T2

公开(公告)日：1999-05-27

申请号：DE69032632

申请日：1990-05-16

Applicant: IBM

Inventor： BAKER ERNEST DYSART ,  DINWIDDIE JOHN MONROE ,  GRICE LONNIE EDWARD ,  JOYCE JAMES MAURICE ,  LOFFREDO JOHN MARIO ,  SANDERSON KENNETH RUSSELL ,  SUAREZ GUSTAVO ARMANDO

IPC: G06F11/00 ,  G06F11/10 ,  G06F11/16 ,  G06F11/18 ,  G06F11/20 ,  G06F15/16 ,  G06F15/173 ,  G06F15/177 ,  G06F9/44

Abstract: The functions of two virtual operating systems (e.g. S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated form 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors across the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs to execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.

公开(公告)号：DE69032632D1

公开(公告)日：1998-10-15

申请号：DE69032632

申请日：1990-05-16

Applicant: IBM

Inventor： BAKER ERNEST DYSART ,  DINWIDDIE JOHN MONROE ,  GRICE LONNIE EDWARD ,  JOYCE JAMES MAURICE ,  LOFFREDO JOHN MARIO ,  SANDERSON KENNETH RUSSELL ,  SUAREZ GUSTAVO ARMANDO

IPC: G06F11/00 ,  G06F11/10 ,  G06F11/16 ,  G06F11/18 ,  G06F11/20 ,  G06F15/16 ,  G06F15/173 ,  G06F15/177 ,  G06F9/44

Abstract: The functions of two virtual operating systems (e.g. S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated form 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors across the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs to execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.

公开(公告)号：AT170996T

公开(公告)日：1998-09-15

申请号：AT90305307

申请日：1990-05-16

Applicant: IBM

Inventor： BAKER ERNEST DYSART ,  DINWIDDIE JOHN MONROE JR ,  GRICE LONNIE EDWARD ,  JOYCE JAMES MAURICE ,  LOFFREDO JOHN MARIO ,  SANDERSON KENNETH RUSSELL ,  SUAREZ GUSTAVO ARMANDO

IPC: G06F11/18 ,  G06F11/00 ,  G06F11/10 ,  G06F11/16 ,  G06F11/20 ,  G06F15/16 ,  G06F15/173 ,  G06F15/177 ,  G06F9/44

Abstract: The functions of two virtual operating systems (e.g. S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated form 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors across the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs to execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.

公开(公告)号：AT170645T

公开(公告)日：1998-09-15

申请号：AT90305311

申请日：1990-05-16

Applicant: IBM

Inventor： BAKER ERNEST DYSART ,  DINWIDDIE JOHN MONROE JR ,  GRICE LONNIE EDWARD ,  JOYCE JAMES MAURICE ,  LOFFREDO JOHN MARIO ,  SANDERSON KENNETH RUSSELL

IPC: G06F15/16 ,  G06F9/46 ,  G06F11/00 ,  G06F11/16 ,  G06F11/20 ,  G06F12/02 ,  G06F13/368 ,  G06F15/177

Abstract: The functions of two virtual operating systems (e.g. S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated form 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors across the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs to execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.

公开(公告)号：AT170997T

公开(公告)日：1998-09-15

申请号：AT90305306

申请日：1990-05-16

Applicant: IBM

Inventor： DINWIDDIE JOHN MONROE JR ,  GRICE LONNIE EDWARD ,  JOYCE JAMES MAURICE ,  LOFFREDO JOHN MARIO ,  SANDERSON KENNETH RUSSELL ,  BAKER ERNEST DYSART

IPC: G06F15/16 ,  G06F12/02 ,  G06F13/38 ,  G06F13/12

Abstract: The functions of two virtual operating systems (e.g. S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated form 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors across the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs to execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.

公开(公告)号：SG45153A1

公开(公告)日：1998-01-16

申请号：SG1996000717

申请日：1990-05-16

Applicant: IBM

Inventor： BAKER ERNEST DYSART ,  DINWIDDIE JOHN MONROE JR ,  GRICE LONNIE EDWARD ,  JOYCE JAMES MAURICE ,  LOFFREDO JOHM MARIO ,  SANDERSON KENNETH RUSSELL

IPC: G06F15/16 ,  G06F9/46 ,  G06F11/00 ,  G06F11/16 ,  G06F11/20 ,  G06F12/02 ,  G06F13/368 ,  G06F15/177

Abstract: The functions of two virtual operating systems (e.g. S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated form 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors across the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs to execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.

公开(公告)号：AU628548B2

公开(公告)日：1992-09-17

申请号：AU5487090

申请日：1990-05-09

Applicant: IBM

Inventor： DINWIDDIE JOHN MONROE JR ,  GRICE LONNIE EDWARD ,  JOYCE JAMES MAURICE ,  LOFFREDO JOHN MARIO ,  SANDERSON KENNETH RUSSELL ,  BAKER ERNEST DYSART

IPC: G06F15/16 ,  G06F9/46 ,  G06F15/17 ,  G06F15/173 ,  G06F15/177

Abstract: The functions of two virtual opening systems (e.g. S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated form 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors across the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs to execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.

公开(公告)号：HK1021662A1

公开(公告)日：2000-06-23

申请号：HK00100603

申请日：2000-02-01

Applicant: IBM

Inventor： BAKER ERNEST DYSART ,  DINWIDDIE JOHN MONROE JR ,  GRICE LONNIE EDWARD ,  JOYCE JAMES MAURICE ,  LOFFREDO JOHN MARIO ,  SANDERSON KENNETH RUSSELL

IPC: G06F15/16 ,  G06F9/46 ,  G06F11/00 ,  G06F11/16 ,  G06F11/20 ,  G06F12/02 ,  G06F13/368 ,  G06F15/177 ,  G06F

Abstract: The functions of two virtual operating systems (e.g. S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated form 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors across the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs to execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.

公开(公告)号：DE69032608T2

公开(公告)日：1999-05-27

申请号：DE69032608

申请日：1990-05-16

Applicant: IBM

Inventor： DINWIDDIE JOHN MONROE ,  GRICE LONNIE EDWARD ,  JOYCE JAMES MAURICE ,  LOFFREDO JOHN MARIO ,  SANDERSON KENNETH RUSSELL ,  BAKER ERNEST DYSART

IPC: G06F15/16 ,  G06F9/46 ,  G06F15/17 ,  G06F15/173 ,  G06F15/177

Abstract: The functions of two virtual opening systems (e.g. S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated form 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors across the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs to execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.

公开(公告)号：DE69032607D1

公开(公告)日：1998-10-08

申请号：DE69032607

申请日：1990-05-16

Applicant: IBM

Inventor： DINWIDDIE JOHN MONROE ,  GRICE LONNIE EDWARD ,  LOFFREDO JOHN MARIO ,  SANDERSON KENNETH RUSSELL ,  BAKER ERNEST DYSART ,  SUAREZ GUSTAVO ARMANDO

IPC: G06F9/46 ,  G06F9/50 ,  G06F11/16 ,  G06F12/02 ,  G06F13/18 ,  G06F15/16 ,  G06F15/167 ,  G06F15/177

Abstract: The functions of two virtual operating systems (e.g. S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors dirertly and through the S/88 bus. Each S/370 processor is allocated form 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors across the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs to execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.