Announced on 12 February 1985, the press releases did not explicitly mention that the two models, Model 200 and Model 400, were backwardly compatible with the 370; instead, they were simply positioned as replacements for the IBM 3033. The IBM 3090/200 version was rated at 18 MIPS and 31,000 UNIXDhrystones.[3] This was true of the entire line, which expanded with the release of the Model 120E,[4] 150, 150E, 180, 180E, 200, 200E, 300, 300E, 400, 400E, 600E, 600J, and 600S[5] 3090 were described as using "ideas from the ... IBM 3033, extending them ... It also took ... from the ... IBM 308X."[6]
The 400 and 600 were respectively two 200s or 300s coupled together as one system and could run in either single-system image mode or partitioned into two systems.[5]
By the late 1970s and early 1980s, patented technology allowed Amdahl mainframes of this era to be completely air-cooled, unlike IBM systems that required chilled water and its supporting infrastructure.[15] The eight largest of the 18 models of the ES/9000 systems introduced in 1990 were water-cooled; the other ten were air-cooled.[16]
On February 15, 1988, IBM announced [17]Enterprise Systems Architecture/370 for 3090 enhanced ("E") models and for 4381 model groups 91E and 92E. In additional to the primary and secondary addressing modes that System/370 Extended Architecture (S/370-XA) supports, ESA has an AR mode in which each use of general register 1-15 as a base register uses an associated access register to select an address space. In addition to the normal address spaces that S/370-XA supports, ESA also allows data spaces, which contain no executable code.
On February 15, 1988, IBM announced [18]Processor Resource/Systems Manager (PR/SM) for 3090 enhanced ("E") models This feature allows the operator to define and assign resource to a virtual machine known as a logical partition (LPAR). Initially there was a 4-LPAR limit for uniprocessors and an 8-LPAR limit for multiprocessors, but newer machines support more.
Remote service capabilities
A modem for "remote service capabilities" was standard; IBM recommended their IBM 3864 model 2.[19][20][21]
Vector facility
On October 1, 1985, IBM announced [22] an optional vector facility[23] for the IBM 3090; such a facility had not been previously available in the System/370 architecture, thus bringing integrated supercomputer capabilities to the mainframe line. IBM entered into partnerships with several universities to promote the use of the 3090 in scientific applications, and efforts were made to convert code traditionally run on Cray computers.[24] Along with the vector unit, IBM introduced their Engineering and Scientific Subroutines Library and a facility to run programs written for the discontinued 3838 array processor.[25]
^Giants of Computing: A Compendium of Select, Pivotal Pioneers, by Gerard O’Regan (2013), ISBN1447153405. "IBM's machines were water-cooled, while Amdahl's were air-cooled"
^Kent, Allen; Williams, James G., eds. (1994). "Supercomputing in Education and Research". Encyclopedia of Computer Science and Technology. Vol. 30. CRC Press. p. 319. ISBN9780824722838. In October 1985, IBM introduced a vector feature to its high-end processor family, the IBM 3090.