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Universal Time-Sharing System

From Wikipedia, the free encyclopedia

Universal Timesharing System (UTS)
DeveloperXerox Data Systems
Written inAssembly Language (Meta-Symbol)
OS familyNot Applicable
Working stateDiscontinued
Source modelUnknown
Initial release1966; 57 years ago (1966)
Latest releaseD00 / Q1, 1973
PlatformsXerox Data Systems Sigma 6, Sigma 7, Sigma 9
Default
user interface		Command-line interface
LicenseUnknown

The Universal Time-Sharing System (UTS) is a discontinued operating system for the XDS Sigma series of computers, succeeding Batch Processing Monitor (BPM)/Batch Time-Sharing Monitor (BTM). UTS was announced in 1966, but because of delays did not actually ship until 1971. It was designed to provide multi-programming services for online (interactive) user programs in addition to batch-mode production jobs, symbiont (spooled) I/O, and critical real-time processes. System daemons, called "ghost jobs" were used to run monitor code in user space. The final release, D00, shipped in January, 1973. It was succeeded by the CP-V operating system, which combined UTS with features of the heavily batch-oriented Xerox Operating System (XOS).

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Transcription

Are we the only living thing in the entire universe? The observable universe is about 90,000,000,000 light years in diameter. There are at least 1,000,000,000 galaxies Each with 100,000,000,000 to 1,000,000,000,000 stars. Recently, we've learned that planets are very common too And there are probably trillions and trillions of habitable planets in the universe Which means there should be lot of opportunities for life to develop and exist, right? But where is it? Shouldn't the universe be teeming with spaceships? Let's take a step back. Even if there are aliens civilisations in other galaxies, there is no way we'll ever know about them. Basically, everything outside of our direct galactic neighborhood, the so called, "Local Group" is pretty much out of our reach forever, because of the expension of the universe. Even if we had really fast spaceships it would literally take billions of years to reach these places, travelling throught the emptiest areas in the universe. So, let's focus on the Milky Way. The Milky Way is our own galaxy, it consists of up to 4 hundred billions stars. That's a lot of stars, roughly 10 thousands for every grain of sand on earth. There are about 20 billions sun-like stars in the Milky Way and estimates suggest that a fivth of them have an earth-sized planet in its habitable zone, the area with conditions that enable life to exist. If only 0.1% of those planets harbored life, there would be 1 million planets with life in the Milky Way. But wait, there's more. The Milky Way is about 13 billion years old. In the beginning, it would not have been a good place for life because things exploded a lot, but after 1 to 2 billion years, the first habitable planets were born. Earth is only 4 billions years old, so there have probably been trillions of chances for life to develop on other planets in the past. If only a single one of them had developed into a space travelling super civilization we would have noticed by now. What would such a civilization look like? There are 3 categories. A Type 1 civilization would be able to access the whole energy available on its planet. In case you are wondering, we are currently around 0.73 on the scale and we should reach Type 1 sometime in the couple hundred of years. Type II would be a civilization capable of harnessing all of the energy of its home star. This would require some serious science fiction, but it is doable in principle. Concepts like the Dyson sphere, a giant complex surrounding the Sun would be conceivable. Type III is the civilization that basically controls its whole galaxy and its energy an alien race this advanced would probably be godlike to us. But why should we be able to see such an alien civilization in the first place? If we were to build generations of spaceships that could sustain a population for around one thousand years we could colonize the galaxy in 2 million years. Sounds like a long time, but remember, the Milky Way is huge. So, if it takes a couple of million years to colonize the entire galaxy and there are possibly millions if not billions of planets that sustain life in the Milky Way and these other life forms have had considerably more time than we've had, then where are all the aliens? This is the Fermi Paradox, and nobody has an answer to it But we do have some ideas. Let's talk about filters. A filter in this context represents a barrier that is really hard for life to overcome. They come in various degrees of scary. One: There are Great Filters and we've passed them. Maybe it is way harder for complex life to develop than we think. The process allowing life to begin hasn't yet been completely figured out and the conditions required may be really complicated. Maybe in the past the Universe was way more hostile, and only recently things have cooled down to make complex life possible This would also mean that we may be unique, or at least one of the first, if not the first civilization in the entire Universe. Two: There are Great Filters and they are ahead of us. This one would be really really bad. Maybe life on our level exists everywhere in the Universe but it gets destroyed when it reaches a certain point, a point that lies ahead of us. For example, awesome future technology exists, but when activated, it destroys the planet. The last words of every advanced civilization would be "This new device will solve all of our problems once I push this button." If this is true, then we are closer to the end than to the beginning of human existence. Or maybe there is an ancient Type III civilization that monitors the Universe and once a civilization is advanced enough it gets eliminated, in an instant. Maybe there is something out there that it would be better not to discover. There is no way for us to know. One final thought: maybe we are alone. Right now, we have no evidence that there's any life besides us. Nothing. The Universe appears to be empty and dead. No one sending us messages no one answering our calls. We may be completely alone, trapped on a tiny moist mud ball in an eternal Universe. Does that thought scare you? If it does, you are having the correct emotional reaction. If we let life on this planet die, perhaps there would be no life left in the Universe. Life would be gone, maybe forever. If this is the case, we just have to venture to the stars and become the first Type III civilization to keep the delicate flame of life existing and to spread it until the Universe breathes its final breath and vanishes into oblivion. The Universe is too beautiful not to be experienced by someone. This video was made posible by your support. It takes at least 100 hours to make one of our videos, and thanks to your contributions on Patreon we are slowly able to do more and more of them. If you want to help us out and get your own personal bird for example, check out the Patreon page.

CP-V

The CP-V (pronounced sea-pea-five) operating system, the compatible successor to UTS, was released in August 1973.[1] CP-V supported the same CPUs as UTS plus the Xerox 560. CP-V offers "single-stream and multiprogrammed batch; timesharing; and the remote processing mode, including intelligent remote batch." Realtime processing was added in release B00 in April 1974, and transaction processing in release C00 in November 1974.[2][3]

CP-V version C00 and F00, and Telefile's TCP-V version I00 still[when?] run on a Sigma emulator developed in 1997.[citation needed]

CP-R

CP-R (Control Program for Real-Time) is a discontinued realtime operating system for Xerox 550 and Sigma 9 computer systems. CP-R supports three types of tasks: Foreground Primary Tasks, Foreground Secondary Tasks, and Batch Tasks.

CP-6

Main article: Honeywell CP-6

CP-6 is a CP-V work-alike, built from scratch, which runs on Honeywell computers.

In 1975, Xerox decided to exit the computer business which it had purchased from Scientific Data Systems in 1969. Honeywell offered to purchase Xerox Data Systems, initially to provide field service support to the existing customer base.

The CP-6 system including OS and program products was developed, beginning in 1976, by Honeywell to convert Xerox CP-V users to run on Honeywell equipment. The first beta site was installed at Carleton University in Ottawa Canada in June 1979, and three other sites were installed before the end of 1979.

Support for CP-6 was transferred to ACTC in Canada in 1993. CP-6 systems continued to run for many years in the US, Canada, Sweden, the UK, and Germany. The final system shut down was at Carleton University in 2005.

CP-6 Community wall Plaque at CHM

CP-6 and its accomplishments, its developers, and its customers are commemorated with a plaque on the community wall at the Computer History Museum in Mountain View, California.

Software

CP-V Software as of release B00, 1974.[4] CP-V was supported by the CP-6 team at the Honeywell Los Angeles Development Center (LADC) until 1977 and thereafter.

Bundled Software

  • TEL – Terminal Executive Language.
  • EASY – Simple interactive environment for FORTRAN and BASIC programs and data files.
  • CCI – Control Command (or Card) Interpreter. The batch counterpart of TEL.
  • BATCH – Submit jobstream to batch queue.
  • PCL – Peripheral Conversion Language (pronounced "pickle"). Data file device to device copy.
  • EDIT – Line Editor.
  • LINK – One-pass linking loader.
  • LOAD – Two-pass overlay loader.
  • DELTA – Instruction-level debugger.
  • SORT/MERGE.
  • Extended FORTRAN IV.
  • FDP – FORTRAN Debug Package.
  • META-SYMBOL – Macro assembler.
  • BASIC.
  • FLAG – Load-and-go FORTRAN compatible with IBM Fortran-H.
  • ANS COBOL.
  • COBOL On-Line debugger.
  • APL.
  • SL-1 – Simulation Language.
  • IBM 1400 Series Simulator.
  • SYSGEN – System Generation.
  • DEFCOM – Export external definitions from a load module.
  • SYMCON – Manipulate symbols in a load module.
  • ANALYZE – System dump analyzer.

Separately Priced Software

  • MANAGE – A generalized file management and reporting tool.
  • EDMS – Database Management System.
  • GPDS – General Purpose Discrete Simulator.
  • CIRC – Electronic Circuit Analysis.

Contributed Software

Xerox maintained a library of other Xerox and user-written software from the EXCHANGE user group. [5]

References

  1. ^ Xerox Data Systems internal memo. "Features Added to CP-V by Release" (PDF). Retrieved 2011-10-16.
  2. ^ Xerox Data Systems internal memo. "History, Size, and Scope of CP-V" (PDF). Retrieved 2011-10-16.
  3. ^ Xerox Data Systems internal memo. "CP-V Design" (PDF). Retrieved 2011-10-16.
  4. ^ Xerox Data Systems. "Xerox Control Program-Five System Management Reference Manual" (PDF). Retrieved 2011-12-20.
  5. ^ Xerox Data Systems. "Xerox Program Availability List" (PDF). Retrieved 2011-12-20.

Further reading

  • Bryan, G. Edward, "Not All Programmers Are Created Equal --Redux," 2012 IEEE Aerospace Conference Proceedings, March 2012
  • P.A. Crisman and Bryan, G. Edward, "Management of Software Development for CP 6 at LADC", Proceedings of the Fifth Annual Honeywell International Software Conference, March 1981.
  • Bryan, G. Edward, "CP-6: Quality and Productivity Measures in the 15-Year Life Cycle of an Operating System," Software Quality Journal 2, 129–144, June 1993.
  • Frost, Bruce, “APL and I-D-S/II APL access to large databases,” APL '83 Proceedings of the international conference on APL, pages 103–107.
  • Fielding, Roy T., "An Empirical Microanalysis of Software Failure Data from a 12-Year Software Maintenance Process," Masters thesis, University of California Irvine, 1992

External links

This page was last edited on 18 July 2023, at 22:55
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