HP 9800 series
HP Model 9830A calculator with optional Model 9866 thermal printer
|Release date||HP 9810A 1971, HP 9830A 1972|
|Operating system||ROM BASIC, expandable with ROM cartridges|
|CPU||Processor based on HP 2100 with stack|
|Memory||16 kB ~ 64 kB|
The HP 9800 was a family of what were initially called programmable calculators and later desktop computers made by Hewlett-Packard, replacing their first HP 9100 calculator. The 9830 and its successors were true computers in the modern sense of the term, complete with a powerful BASIC language interpreter.
Chronologically, the models of the family were:
- HP 9810A, a keystroke programmable computer with magnetic cards and LED display, introduced in 1971,
- HP 9820A, introduced in 1972, featured a high level language simpler than BASIC that was later named high performance language (HPL),
- HP 9821A, similar to the HP 9820A, however, with Compact Cassettetape drive with clear leaders instead of using magnetic cards. Tapes created on the HP 9821A could be read by the HP 9830A. Unlike later home computers which used standard cassette audio recorders which had to be manually put into record or play mode, it was completely controlled by software command, and could save and load to a file by number.
- HP 9830A, introduced in 1972, was the top of the 9800 line; having BASIC interpreter in read-only memory (ROM).
All 98x0 and 9821 systems used the same I/O interfaces. A 400 line per minute 80-column thermal line printer was designed to fit on top of the 9820 and 9830.
The success of the HP9830 led to a next generation with faster logic:
- HP 9805A, the least expensive model using the same chassis as the HP46 (scientific) and HP81 (business) calculators. This was a Programmable Calculator and had plug-in personality modules.
- HP 9815A/S, The HP 9815A was HP's third generation high end RPN desktop. It was much smaller, lighter and less expensive than its predecessor. It provided only a single line display but replaced the earlier card drives with a tape drive.
- HP 9825A/B, featured HPL, a single-line display, and optional thermal printer,
- HP 9831, an HP9825 with BASIC instead of HPL,
- HP 9835, featured BASIC. There were two models, the A and B. The A had a CRT, and the B had a single-line display,
- HP 9845 introduced first as a monochrome (9845A/S), then a high-performance monochrome (9845B/T) and a high performance color (9845C/T) model. The 9845 came with one tape drive, and optional second tape drive and 80 column wide thermal printer.
All the 98x5, with the exception of the 9805, used DC200 cartridge tapes, instead of cassette tapes. The 9825, 9831, 9835, and 9845 all used the same I/O interfaces. the 9815 had a unique I/O interface.
In HPL instead of variables such as A1 and J2, there were numbered registers r1, r2, up to r199999. This HPL program for the HP 9825 generates a list of prime numbers:
0: fxd 0 1: prt 1 2: prt 2 3: 1→P 4: for C=2 to 1000000 5: P+2→P 6: for N=3 to P/3 7: if int(P/N)*N = P; gto 4 8: next N 9: prt P 10: next C
Another unique characteristic of HPL was the right arrow. This arrow was known as the gazinta (slang for "goes into"). The statement 1→P would be pronounced "One gazinta P".
HP 9830 description
9830s were built with a processor similar in architecture to the HP 1000/2100 series minicomputer with 16-bit memory address, and an AX and BX general processor register. They ran at a speed comparable to the first IBM PCs. They could draw a mesh of a 3D SIN(X)/X function with no hidden lines over the course of several minutes, a technological breakthrough for the time.
Because programs were designed to run from ROM (read only memory) the call subroutine instruction had to be changed because in the HP211x the return location was written in the first location of the subroutine. Instead, another register was created to keep track of return locations on a separate stack area, like more modern processors.
Some models (e.g. 9835B) used a 32-character 1 line uppercase LED display, which on the one hand might seem limiting, but on the other hand had the same effect as one-line window into a full screen editor which did not become common until the 1980s, with controls to go up or down a line, and cursor left and right, inserting or deleting characters. They powered on ready to do math in "immediate mode", where you would type in an expression such as PRINT 2 + 3, and you would get an answer when you hit enter, without the complication of logging in, or the overhead of maintaining a big computer room and operator.
A computer controlled cassette drive using audio cassettes with clear leaders was used for storage, with random access to file by number, but a hard drive could also be attached.
The matching line thermal printer was quite fast, printing one horizontal line of dots at once. The speed of a page was faster than later dot matrix printers, and not much worse than modern ink jet printers. HP incorporated thermal printers into many plotting and terminal products later.
Although the processor used was only a slight adaptation from that used on HP minicomputers, the system software would be completely redesigned for a computer with its operating system and language system built into read-only memory. BASIC was similar to FORTRAN used by engineers on the HP 1000 minicomputer, but much simpler to use as an interpreted language. Arrow cursor keys were provided which could scroll up and down lines, and interactively insert or delete characters which was unheard of with most CRT or printing terminals until the advent of the screen editor in the late 1970s, and the programmer could single-step or check values of variables.
Two rows of user defined function keys with paper labels were some of the earliest implementation of general function keys. They would be the basis for later screen labeled function keys used in later Hewlett Packard (and IBM) terminals and computers, and now widely adopted in calculators, bank terminals, and gas pumps.
It was programmable in BASIC which could be extended with ROMs to do graphics plotting, matrix math and string variables. The ROM cartridges were designed to extend the BASIC language, and were very similar to the cartridges later used by video game consoles.
The Plotter ROM added commands which made creating a chart much more simply that is possible with C++ or C#, and used user or world coordinates rather than integer plotter units. These commands would later become the basis for the device independent HP AGL graphics language standard implemented on other HP computers such as the HP 1000 minicomputer and HP 2647 intelligent graphics terminal.
10 REMARK DRAW A PARABOLA 20 SCALE -1.0, 1.0, -1.0, 1.0 30 FOR X = -1.0 TO 1.0 STEP 0.10 40 PLOT X, X*X 50 NEXT X 60 END
Also available for programming the HP 9800 series was a bootable development environment based on UCSD Pascal, but with a compiler which would generate fast, native Motorola 68000 object code, instead of the slower p-code typical of most UCSD Pascal implementations. This performance was very valuable for scientific and technical programming applications.
HP 9830s were commonly employed at aerospace companies such as Boeing. They were also used by some schools such as Renton, Washington, which used pencil mark-sense cards with card readers to accommodate classroom use. An HP 9830 system with an integrated hard drive was also provided by HP in the early 1970s to National Real Estate Exchange, Inc., a small company in Florida, for its use in developing early real estate software. The U.S. Coast Guard devised a teletype message-forwarding system based on 9825As which were deployed as a working prototype for a subsequent purpose-built system, and also used them in the coordination of LORAN radionavigation transmitter chains. HP9825s were used in conjunction with Oscor software to score one design yachting regattas in remote locations, such as the 1976 World Fireball championships in Nova Scotia, the World Windsurfing championships in 1976/1977 in Cancún and Bahamas, and also Laser championships. The HP9825 was selected because it was portable - the only alternatives were phone access to time sharing computers which was not reliable from these locations.
Other BASIC computers
The Data Terminals Division also produced a BASIC programmable version of the HP2640 series terminal, the HP 2647a which also featured AGL, which was an HP standardization of the HP 9830 plotter commands. The HP 2647 BASIC was basically Microsoft BASIC with HP 9830-style plotting commands added, and was one of Microsoft's first big contracts with a mainstream major computer company. HP also produced a series of handheld pocket computers with a one-line display such as the HP-75, though such devices were not popular for long. The HP 9835 was also used as the basis for a business computing system, and later the HP 250 which lives on as an application platform.
In 1979 the 85, the first of the 80 series of personal desktop scientific computers, was produced. It had a powerful BASIC interpreter, and was affordable by individuals whose employers might have expensive 9845s.
That division evolved to produce UNIX HP 9000 series workstations, also acquiring the Apollo Computer Company. HP Basic would later evolve into Rocky Mountain BASIC for workstations, which is still in use today to support legacy applications.
An ancestor of modern personal computers
The HP 9800 series were developed by HP's Loveland division (Calculator Products Division), and later Fort Collins division (Desktop Computer Division). Early desktop computers were marketed as "Calculators" to make purchasing easier. At the time, some companies had different procedures for purchasing "Computers".
The HP 9800 series later gave rise to the class of desktop computers, including the Tektronix 4051, IBM 5100 and Wang 2200. Over time, they would be replaced in the marketplace by personal computers such as the Apple and IBM PC which were inspired by this first generation of desktop computers. They would be created from standard microcomputer components and became favored by household and office uses.
By the 21st century, Hewlett Packard would become the largest producer of personal computers. Today, most households and offices have a desktop or portable computers with an integrated keyboard and display attached to high speed printers with communication capabilities.
-  The NMOS II Hybrid Microprocessor: