IBM Skip to main content
     Home  |  Products & services  |  Support & downloads  |  My account
 Select a country
 
IBM Archives
Catalog
Highlights
· Exhibits
· Reference
· Documents
· Multimedia
· Links
Services
Using the Archives
 
 
Advanced Search

 

Reference / Glossary

IBM Archives
glossary entries for Aglossary entries for Bglossary entries for Cglossary entries for Dglossary entries for Eglossary entries for Fglossary entries for Gglossary entries for Hglossary entries for Iglossary entries for Jglossary entries for Kglossary entries for Lglossary entries for Mglossary entries for Nglossary entries for Oglossary entries for Pglossary entries for Qglossary entries for R
glossary entries for Sglossary entries for Tglossary entries for Uglossary entries for Vglossary entries for Wglossary entries for Xglossary entries for Yglossary entries for Zglossary entries for 0glossary entries for 1glossary entries for 2glossary entries for 3glossary entries for 4glossary entries for 5glossary entries for 6glossary entries for 7glossary entries for 8glossary entries for 9
 
Cross References
           
91 [1] The IBM System/360 Model 91 was introduced in 1966 as the fastest, most powerful computer then in use. It was specifically designed to handle high-speed data processing for scientific applications such as space exploration, theoretical astronomy, subatomic physics and global weather forecasting. IBM estimated that each day in use, the Model 91 would solve more than 1,000 problems involving about 200 billion calculations.
 
91 [2] The system's immense computing power resulted from a combination of several key factors, including advanced circuits that switched in billionths of a second, high-density circuit packaging techniques and a high degree of "concurrency," or parallel operations.
 
91 [3] To users of the time, the Model 91 was functionally the same as other large-scale System/360s. It ran under Operating System/360 -- a powerful programming package of approximately 1.5 million instructions that enabled the system to operate with virtually no manual intervention. However, the internal organization of the Model 91 was the most advanced of any System/360.
 
91 [4] Within the central processing unit (CPU), there were five highly autonomous execution units which allowed the machine to overlap operations and process many instructions simultaneously. The five units were processor storage, storage bus control, instruction processor, fixed-point processor and floating-point processor. Not only could these units operate concurrently, they could also perform several functions at the same time.
 
91 [5] Because of this concurrency, the effective time to execute instructions and process information was reduced significantly.
 
91 [6] The Model 91 CPU cycle time (the time it takes to perform a basic processing instruction) was 60 nanoseconds. Its memory cycle time (the time it takes to fetch and store eight bytes of data in parallel) was 780 nanoseconds. A Model 91 installed at the U.S. National Aeronautics & Space Administration (NASA) operated with 2,097,152 bytes of main memory interleaved 16 ways. Model 91s could accommodate up to 6,291,496 bytes of main storage.
 
91 [7] With a maximum rate of 16.6-million additions a second, NASA's machine had up to 50 times the arithmetic capability of the IBM 7090.
 
91 [8] In addition to main memory, NASA's Model 91 could store over 300 million characters in two IBM 2301 drum and IBM 2314 direct access storage units. It also had 12 IBM 2402 magnetic tape units for data analysis applications, such as the processing of meteorological information relayed from satellites. Three IBM 1403 printers gave the system a 3,300-line a minute printing capability. Punched card input/output was provided through an IBM 2540 card read punch.
 
91 [9] The console from a Model 91 has been preserved in the IBM Collection of Historical Computers, and is exhibited today in the IBM Technology Gallery in the company's corporate headquarters in Armonk, N.Y.
 
9000 [1] When the System/390 line was introduced in September 1990 as IBM's most comprehensive announcement of products, features and functions in more than a quarter century, it included the IBM Enterprise System/9000 family of 18 new processors. One measure of the announcement's breadth was that a total of 23 different IBM manufacturing and development sites around the world were involved in the roll-out.
 
9000 [2] One measure of the announcement's breadth was that a total of 23 different IBM manufacturing and development sites around the world were involved in the roll-out. The new processor family provided significant price-performance gains and flexible growth options spanning a 100-fold performance range increase from the smallest (model 120) to the most powerful (model 900 six-way multiprocessor).
 
9000 [3] The ES/9000s exploited new technologies, such as high-speed fiber optic channels with IBM's new ESCON architecture, ultra-dense circuits and circuit packaging that provided higher performance, extended supercomputing capabilities and twice the processor memory previously available.
 
9000 [4] Basic purchase prices for the air-cooled processors of ES/9000 ranged from approximately $70,500 to $3.12 million. Basic purchase prices for the water-cooled models ranged from $2.45 million to $22.8 million.
 
  About IBM  |  Privacy  |  Legal  |  Contact