1 10 6 https://museum.eecs.yorku.ca/files/original/8389413874c5ce551900f2e4ae7ffd7a.jpg 4cb3a362b0243be9eb0b0e016d37ed83 https://museum.eecs.yorku.ca/files/original/b8763ac0ad40587a239c2d56139140a1.jpg 4077a22201ed9455a755c03bc8461a53 hardware A computer (or a calculator), its components and peripherals (displays, printers, pointing devices, modems, external storage devices, etc). Dublin Core The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/. Title A name given to the resource Rapid Data Rapidman 1212 calculator Subject The topic of the resource hardware: desk-top digital electronic calculator Description An account of the resource Historical context (by Z. Stachniak) In the early 1970s, the consumer electronics market was going through one of the hottest periods in its history. Advancements in microelectronics, especially in integrated circuit technologies, had made it possible to offer inexpensive desktop and, soon after, hand-held digital electronic calculators. In 1971, the promise of a calculator power at your finger tips (pledged by Bowmar Instrument, Cannon, and, soon after, by scores of other calculator manufacturers) was rapidly gaining social acceptance. It was the idea of a personal, inexpensive, powerful electronic calculating device for your own unrestricted use, always in your pocket, in your briefcase, or on your desk that made the pocket calculator one of the most desired electronic gadgets of the first half of the 1970s. Commodore Business Machines (founded in 1958 in Toronto) and Rapid Data Systems and Equipment Ltd. (incorporated in 1962 in Toronto) were the earliest Canadian companies that offered their own electronic desktop and pocket-sized calculators. Rapid Data's first calculator--the Rapidman 800--was introduced in February 1972 at the time when intense competition put immense pricing pressure to offer hand-held calculators for under $100 and the stores across North America were racing to be the first to sell them. In early 1972, to win the race, Alexander's--New York's iconic department store chain--ordered 20,000 Rapidman 800s to be sold at $99.99. In a short succession, the Rapidman 800 was followed by the 801, 802, 804, 812, (introduced in 1974(?)) and 824 hand-helds. In his 2005 recollections written for York University Computer Museum, Henry Dasko--a former European Sales Manager at Rapid Data--describes the company's corporate history and his involvement with Rapid Data in the following way. "The year was 1971, late Spring. I had been in Canada for just over a year and was looking for a job. Ideally it would be something in exports. But most of Canada's exports were raw materials and commodities and I had no experience and no feel for that. Finally, I found an ad that seemed to give me a chance. An electronics company was looking for someone with languages. I applied and soon got a phone call. "You say you speak Russian," the voice said. "I do." "How many years did you study Russian?" "Fourteen." "OK, come for an interview." I did, to a modern, low building near the Toronto airport. "We make calculators," a well groomed, silver haired man told me. I had no idea what a calculator was. "A Soviet trade delegation is coming to see us. They would like to buy our technology. We are not going to sell it to them, but we will talk to them. Let’s see how well you do." I did well enough. The Russians left and I was told to return the following day. I had a low level job in the International Marketing Department. My boss was to be one Rick Denda, whom I hadn't met - he was travelling in Europe, but his silver Ferrari 330 and his white Mercedes sedan were sitting in the company lot. I liked him already. He returned soon and we got along fine. I familiarized myself with the product line and was told to gather as much information about competitive products as possible. Our most popular model was a pocket calculator named Rapidman 800. It had 8-digit [display] capacity and could perform four basic functions. Hang tab keys were molded into the case. Decimal point was fixed at 2. Individual LEDs were hand inserted into the PCB. It was difficult to align them, and they were almost always crooked. The unit was made on an electronics assembly line in London, Ontario. It sold for $100. Our biggest export market was in the US, where we had our own branch in Detroit. I had nothing to do with it. My responsibility was the secondary markets, where we dealt with export agents and distributors. We communicated via telex, which I learned to use. Selling was not a problem. We just could not get enough product. Everyone wanted it. Sometimes the requests were outrageous. "I am calling you from the cabinet of the president of Chile," Leslie Sebastian, a Hungarian expatriate yelled at me. "I want 100,000 calculators and I want them now. Every schoolchild in Chile is going to have his own machine. Chile will be the first in the world." Soon we had several competitors - American companies Texas Instruments and Bowmar, and the Japanese giant Sharp, which offered an elegant brushed aluminum box with large, glowing, diffused LEDs. There was also a Canadian competitor named Commodore. Its president was Jack Tramiel who, like me, was a Polish Jew. In Polish, his real name was Trzmiel, pronounced "Chmiel", which in Polish means "hornet". He was an Auschwitz survivor with a number tattooed on his forearm. A bear of a man. He started a typewriter service shop in the Polish area of Toronto. The president of our company, Clive Raymond, was very different. He was born in India, where his father was a British colonial officer. In Canada he ran an office equipment company named Roneo Vickers, which specialized in spirit duplicator machines. He was a portly, elegant man with commanding presence. I met our design engineers, who were responsible for technology development. Their names were Joe Kelly and Joe Tari and they both came from an academic background. Raymond gave them a long term contract and shares in Rapid Data. Soon our product line expanded. We added model 801 with a floating decimal point and a model 812 with 12-digit capacity and full memory. Rapidman 824 was one of the first to perform complex scientific calculations. We also made desktop calculators, powered by the mains. A 12-digits Rapidman 1212 and even more sophisticated Rapidman 1220, both using orange coloured gas discharge Panaplex displays we bought from Burroughs Corporation in New Jersey. We also made printing calculators, which recorded calculations on a paper ribbon. The printing heads came from Seiko Corporation in Japan. Most of our chips except for the small Rapidman 800 came from an aerospace company in California, named Rockwell International. Financing for our company came from the Eaton's Pension Fund, where Raymond knew people. Even though there weren't enough calculators to fill the orders, prices were plummeting. I understood it to be the rule in electronics. The same phenomenon had happened previously with transistor radios. I was doing well. Soon I was promoted to European Sales Manager and transferred to Shannon, Southern Ireland, where we had a distribution facility in a tax-free economic zone. But the company was not doing well. In printers, which were the most profitable product, we have fallen behind technology curve. Printing heads had a spinning roller, which in the first generation model emitted annoying buzz. Seiko subsequently developed a silent printer, but would only sell it to Japanese calculator makers. I understood then that it wasn't how many products you sold, but how much profit you made - a principle which stayed with me throughout my professional life. Rapid Data was losing money. Soon Rockwell and Eaton's demanded payments which we couldn't make. Even though we all worked very hard and the spirit of the company was fantastic, Rapid Data had to close down in the largest Canadian bankruptcy in Canadian history. We all lost our jobs. For me personally it was a very sad moment, but I have learned a lot and was confident of the future. I wasn't wrong - I had gained experience in electronics, and electronics was the name of the game. Within three months I had another job." Rapidman 1212 features: <ul></ul> <ul> <li>12 digit display,</li> <li>4 functions (+, -, x, ÷),  automatic percent calculations,</li> <li>full floating decimal system, decimal position selectable 0-5 places from keyboard,</li> <li>indicators: negative sign, overflow, and memory in use,</li> <li>24-key keyboard with entry correction and percent, clearing, change, and exchang keys as well as memory addition/subtraction, memory recall, and clear memory keys.</li> </ul> Hardware: <ul> <li>3 registers (1 numeric, 1 constant, and 1 memory)</li> <li>CPU: LSI single chip</li> </ul> Museum holdings: The museum has a Rapidman 1212, serial number 26354. Creator An entity primarily responsible for making the resource Rapid Data Systems and Equipment Ltd., Toronto, Canada Date A point or period of time associated with an event in the lifecycle of the resource introduced in 1974(?) Coverage The spatial or temporal topic of the resource, the spatial applicability of the resource, or the jurisdiction under which the resource is relevant world, 1974(?)- Contribution Form The set of elements containing metadata from the Contribution form. Online Submission Indicates whether or not this Item has been contributed from a front-end contribution form. No calculator Canadian Rapidman 1212 https://museum.eecs.yorku.ca/files/original/141aabfe33a53e00cbadf2419d502f36.jpg 3f138a6a148b54a902b4906d35fc8992 Document A resource containing textual data. Note that facsimiles or images of texts are still of the genre text. Dublin Core The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/. Title A name given to the resource Rapid Data Rapidman 800 calculator Description An account of the resource Historical context (by Z. Stachniak) In the early 1970s, the consumer electronics market was going through one of the hottest periods in its history. Advancements in microelectronics, especially in integrated circuit technologies, had made it possible to offer inexpensive desktop and, soon after, hand-held digital electronic calculators. In 1971, the promise of a calculator power at your finger tips (pledged by Bowmar Instrument, Cannon, and, soon after, by scores of other calculator manufacturers) was rapidly gaining social acceptance. It was the idea of a personal, inexpensive, powerful electronic calculating device for your own unrestricted use, always in your pocket, in your briefcase, or on your desk that made the pocket calculator one of the most desired electronic gadgets of the first half of the 1970s. Commodore Business Machines (founded in 1958 in Toronto) and Rapid Data Systems and Equipment Ltd. (incorporated in 1962 in Toronto) were the earliest Canadian companies that offered their own electronic desktop and pocket-sized calculators. Rapid Data's first calculator--the Rapidman 800--was introduced in February 1972 at the time when intense competition put immense pricing pressure to offer hand-held calculators for under $100 and the stores across North America were racing to be the first to sell them. In early 1972, to win the race, Alexander's--New York's iconic department store chain--ordered 20,000 Rapidman 800s to be sold at $99.99. In a short succession, the Rapidman 800 was followed by the 801 (introduced in 1973), 802, 804, 812, and 824 hand-helds. In his 2005 recollections written for York University Computer Museum, Henry Dasko--a former European Sales Manager at Rapid Data--describes the company's corporate history and his involvement with Rapid Data in the following way. "The year was 1971, late Spring. I had been in Canada for just over a year and was looking for a job. Ideally it would be something in exports. But most of Canada's exports were raw materials and commodities and I had no experience and no feel for that. Finally, I found an ad that seemed to give me a chance. An electronics company was looking for someone with languages. I applied and soon got a phone call. "You say you speak Russian," the voice said. "I do." "How many years did you study Russian?" "Fourteen." "OK, come for an interview." I did, to a modern, low building near the Toronto airport. "We make calculators," a well groomed, silver haired man told me. I had no idea what a calculator was. "A Soviet trade delegation is coming to see us. They would like to buy our technology. We are not going to sell it to them, but we will talk to them. Let’s see how well you do." I did well enough. The Russians left and I was told to return the following day. I had a low level job in the International Marketing Department. My boss was to be one Rick Denda, whom I hadn't met - he was travelling in Europe, but his silver Ferrari 330 and his white Mercedes sedan were sitting in the company lot. I liked him already. He returned soon and we got along fine. I familiarized myself with the product line and was told to gather as much information about competitive products as possible. Our most popular model was a pocket calculator named Rapidman 800. It had 8-digit [display] capacity and could perform four basic functions. Hang tab keys were molded into the case. Decimal point was fixed at 2. Individual LEDs were hand inserted into the PCB. It was difficult to align them, and they were almost always crooked. The unit was made on an electronics assembly line in London, Ontario. It sold for $100. Our biggest export market was in the US, where we had our own branch in Detroit. I had nothing to do with it. My responsibility was the secondary markets, where we dealt with export agents and distributors. We communicated via telex, which I learned to use. Selling was not a problem. We just could not get enough product. Everyone wanted it. Sometimes the requests were outrageous. "I am calling you from the cabinet of the president of Chile," Leslie Sebastian, a Hungarian expatriate yelled at me. "I want 100,000 calculators and I want them now. Every schoolchild in Chile is going to have his own machine. Chile will be the first in the world." Soon we had several competitors - American companies Texas Instruments and Bowmar, and the Japanese giant Sharp, which offered an elegant brushed aluminum box with large, glowing, diffused LEDs. There was also a Canadian competitor named Commodore. Its president was Jack Tramiel who, like me, was a Polish Jew. In Polish, his real name was Trzmiel, pronounced "Chmiel", which in Polish means "hornet". He was an Auschwitz survivor with a number tattooed on his forearm. A bear of a man. He started a typewriter service shop in the Polish area of Toronto. The president of our company, Clive Raymond, was very different. He was born in India, where his father was a British colonial officer. In Canada he ran an office equipment company named Roneo Vickers, which specialized in spirit duplicator machines. He was a portly, elegant man with commanding presence. I met our design engineers, who were responsible for technology development. Their names were Joe Kelly and Joe Tari and they both came from an academic background. Raymond gave them a long term contract and shares in Rapid Data. Soon our product line expanded. We added model 801 with a floating decimal point and a model 812 with 12-digit capacity and full memory. Rapidman 824 was one of the first to perform complex scientific calculations. We also made desktop calculators, powered by the mains. A 12-digits Rapidman 1212 and even more sophisticated Rapidman 1220, both using orange coloured gas discharge Panaplex displays we bought from Burroughs Corporation in New Jersey. We also made printing calculators, which recorded calculations on a paper ribbon. The printing heads came from Seiko Corporation in Japan. Most of our chips except for the small Rapidman 800 came from an aerospace company in California, named Rockwell International. Financing for our company came from the Eaton's Pension Fund, where Raymond knew people. Even though there weren't enough calculators to fill the orders, prices were plummeting. I understood it to be the rule in electronics. The same phenomenon had happened previously with transistor radios. I was doing well. Soon I was promoted to European Sales Manager and transferred to Shannon, Southern Ireland, where we had a distribution facility in a tax-free economic zone. But the company was not doing well. In printers, which were the most profitable product, we have fallen behind technology curve. Printing heads had a spinning roller, which in the first generation model emitted annoying buzz. Seiko subsequently developed a silent printer, but would only sell it to Japanese calculator makers. I understood then that it wasn't how many products you sold, but how much profit you made - a principle which stayed with me throughout my professional life. Rapid Data was losing money. Soon Rockwell and Eaton's demanded payments which we couldn't make. Even though we all worked very hard and the spirit of the company was fantastic, Rapid Data had to close down in the largest Canadian bankruptcy in Canadian history. We all lost our jobs. For me personally it was a very sad moment, but I have learned a lot and was confident of the future. I wasn't wrong - I had gained experience in electronics, and electronics was the name of the game. Within three months I had another job." Rapidman 800 features <ul> <li>four functions (+, -, x, ÷), chain of mixed multiplication and division, constant calculations in all four functions,</li> <li>decimal system: two places,</li> <li>single key entry correction and cleaning,</li> <li>negative sign and overflow indication,</li> <li>power on indication,</li> <li>low battery indication.</li> </ul> Hardware specification <ul> <li>display: 8-digit LED display with constant,</li> <li>CPU: Mostek MK5010P,</li> <li>keyboard: 17-key including on/off and clear keys,</li> <li>indicators: negative sign, and overflow,</li> <li>power supply: 9V battery or AC adapter.</li> </ul> Museum holdings <ul> <li>Rapidman 800, serial number 385224</li> <li>Operaing Instructions for your Rapidman 800 Calculator, Rapid Data, 1972. </li> </ul> Subject The topic of the resource hardware: electronic calculator Creator An entity primarily responsible for making the resource Rapid Data Systems and Equipment Ltd. Coverage The spatial or temporal topic of the resource, the spatial applicability of the resource, or the jurisdiction under which the resource is relevant world, 1970s Contribution Form The set of elements containing metadata from the Contribution form. Online Submission Indicates whether or not this Item has been contributed from a front-end contribution form. No calculator https://museum.eecs.yorku.ca/files/original/f5867db03a8602668c4b6b07696308cc.jpg 4358682b35dec595d9691fca83a72060 hardware A computer (or a calculator), its components and peripherals (displays, printers, pointing devices, modems, external storage devices, etc). Dublin Core The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/. Title A name given to the resource Commodore 202 adding machine Subject The topic of the resource hardware: electric calculator Description An account of the resource Historical context Commodore International Ltd. (or Commodore) was one of the world's largest manufacturers of electronic hand-held calculators as well as home, educational, and business microcomputers. It was best known for its popular personal computers including the PET line of personal desktops as well as the VIC-20, Commodore 64, and the Amiga computers. It was founded on October 10, 1958 as Commodore Portable Typewriter Company Limited in Toronto, Ontario. Two years later, the company incorporated its Commodore Business Machines subsidiary in New York. In 1976, Commodore reorganized its corporate structure as Commodore International Ltd. and moved its financial headquarters to the Bahamas and the operations headquarters to Pennsylvania. The restructured company encompassed several entities world-wide including Commodore Business Machines Ltd., Canada. In 1947, the company's founder—Jack Tramiel—emigrated from Poland to the US. During his US army service (1948-51) he gained considerable experience in repairing office equipment which he turned into business in his civilian life, first in Bronx, New York, and later in Toronto, Canada, where he moved in 1955. His Toronto business was initially focused on repairs and selling licensed typewriters, adding machines, and other office equipment. Initially located at 2 Toronto Street, in the city's downtown core, a short distance from the IBM Toronto Downtown Office, the company relocated several times before establishing its headquarters at 946 Warden Ave, Scarborough, Ont. During the 1960s the scope of Commodore's business expanded to office furniture as well as to electric and eventually electronic calculators. The first Commodore-branded adding machine was the model C mechanical calculator manufactured by a Czechoslovakian company Nisa and sold by Commodore around 1960. The first exclusive Commodore adding machine—the 202—was announced in 1967. The following year, the company began to turn its focus toward electronic desktop and, soon after, hand-held calculators. Commodore entered the market of hand-held electronic calculators in late 1970s with its CBM 110 device. Within months, the company introduced what would become a popular series of Minuteman calculators. That series, in turn, was followed by the "SR" and "SF" line of scientific and financial hand-held calculators. By the mid-1970s, Commodore was selling a wide range of electronic calculators, becoming one of the largest American manufacturers of these devices. Commodore's entry into microcomputer market was, to a large degree, the result of fierce price war in the calculator market that started in late 1973, and the decision of Texas Instruments—one of the main suppliers of calculator chips—to enter the calculator market and to compete with its clients. To stay competitive and independent of third parties for the chips and displays that went into its products, Commodore purchased MOS Technology in 1976. With the acquisition came not only MOS integrated circuits (most notably the 6502 microprocessor) but also Chuck Peddle's—the 6502's chief designer's—considerable technical expertise and impeccable sense of changing trends in electronics market. While at MOS, he built the KIM-1 single-board computer that quickly became popular among computer hobbyists. Peddle urged Commodore not to underestimate the market potential for mass-manufactured microcomputers and his team got permission to go ahead with a project of designing a desktop computer around the 6502 processor. The all-in-one Commodore PET (or Personal Electronic Transactor) was introduced in 1977. It was successfully marked world-wide, which opened the door into the consumer electronics market for the company's next best sellers: the VIC-20 introduced in 1980, and the Commodore 64 unveiled in 1982. By 1983, in just 25 years, a small downtown Toronto typewriter sales and repair shop was transformed into one of the most revered personal computer companies in the world, shipping more units world-wide than any other computer company. However, the departure of Tramiel from Commodore in 1984 marked the beginning of the company's downfall. Commodore was loosing grounds to the IBM PC and Apple Macintosh platforms. The purchase of Amiga and the sales of its aging fleet of 8-bit computers sustained the company for a while but eventually, in 1994, Commodore began its liquidation. Commodore 202 description The Commodore 202 was possibly the first adding machine sold exclusively by the  company. It was announced in 1967 and manufactured by a Japanese company Ricoh which previously built the 201 adding machine for Commodore. The award-winning case design for the adder was created by Thomas McGourty of Commodore. The 202 featured a built-in column indicator (recording the number of digits pressed) and a printer. <ul> <li>Operations: addition, subtraction, multiplication, credit balance, automatic total and sub-total, automatic repeat key for repeat addition, subtraction, and multiplication,</li> <li> column indicator : 10 digit, mechanical,</li> <li>printing mechanism: 10 column list, eleven column total, red and black printing,</li> <li>keyboard: 17 keys including "clear", single, double, and triple "0" keys,</li> <li>power: AC only.</li> </ul> Museum holdings <ul> <li>Commodore 202 adder, serial nr. B-152639.</li> </ul> Date A point or period of time associated with an event in the lifecycle of the resource 1967 Creator An entity primarily responsible for making the resource Ricoh and Commodore International Ltd. Coverage The spatial or temporal topic of the resource, the spatial applicability of the resource, or the jurisdiction under which the resource is relevant North America, Europe, late 1960s -- early 1970s adder calculator https://museum.eecs.yorku.ca/files/original/2041ed6c41b03f082e238b1121d630b1.jpg c79c51a5671117b93007cd531512746b hardware A computer (or a calculator), its components and peripherals (displays, printers, pointing devices, modems, external storage devices, etc). Dublin Core The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/. Title A name given to the resource Commodore C108 calculator Subject The topic of the resource hardware: electronic desktop calculator Description An account of the resource Historical context Commodore International Ltd. (or Commodore) was one of the world's largest manufacturers of electronic hand-held calculators as well as home, educational, and business microcomputers. It was best known for its popular personal computers including the PET line of personal desktops as well as the VIC-20, Commodore 64, and the Amiga computers. It was founded on October 10, 1958 as Commodore Portable Typewriter Company Limited in Toronto, Ontario. Two years later, the company incorporated its Commodore Business Machines subsidiary in New York. In 1976, Commodore reorganized its corporate structure as Commodore International Ltd. and moved its financial headquarters to the Bahamas and the operations headquarters to Pennsylvania. The restructured company encompassed several entities world-wide including Commodore Business Machines Ltd., Canada. In 1947, the company's founder—Jack Tramiel—emigrated from Poland to the US. During his US army service (1948-51) he gained considerable experience in repairing office equipment which he turned into business in his civilian life, first in Bronx, New York, and later in Toronto, Canada, where he moved in 1955. His Toronto business was initially focused on repairs and selling licensed typewriters, adding machines, and other office equipment. Initially located at 2 Toronto Street, in the city's downtown core, a short distance from the IBM Toronto Downtown Office, the company relocated several times before establishing its headquarters at 946 Warden Ave, Scarborough, Ont. During the 1960s the scope of Commodore's business expanded to office furniture as well as to electric and eventually electronic calculators. The first Commodore-branded adding machine was the model C mechanical calculator manufactured by a Czechoslovakian company Nisa and sold by Commodore around 1960. The first exclusive Commodore adding machine—the 202—was announced in 1967. The following year, the company began to turn its focus toward electronic desktop and, soon after, hand-held calculators. Commodore entered the market of hand-held electronic calculators in late 1970s with its CBM 110 device. Within months, the company introduced what would become a popular series of Minuteman calculators. That series, in turn, was followed by the "SR" and "SF" line of scientific and financial hand-held calculators. By the mid-1970s, Commodore was selling a wide range of electronic calculators, becoming one of the largest American manufacturers of these devices. Commodore's entry into microcomputer market was, to a large degree, the result of fierce price war in the calculator market that started in late 1973, and the decision of Texas Instruments—one of the main suppliers of calculator chips—to enter the calculator market and to compete with its clients. To stay competitive and independent of third parties for the chips and displays that went into its products, Commodore purchased MOS Technology in 1976. With the acquisition came not only MOS integrated circuits (most notably the 6502 microprocessor) but also Chuck Peddle's—the 6502's chief designer's—considerable technical expertise and impeccable sense of changing trends in electronics market. While at MOS, he built the KIM-1 single-board computer that quickly became popular among computer hobbyists. Peddle urged Commodore not to underestimate the market potential for mass-manufactured microcomputers and his team got permission to go ahead with a project of designing a desktop computer around the 6502 processor. The all-in-one Commodore PET (or Personal Electronic Transactor) was introduced in 1977. It was successfully marked world-wide, which opened the door into the consumer electronics market for the company's next best sellers: the VIC-20 introduced in 1980, and the Commodore 64 unveiled in 1982. By 1983, in just 25 years, a small downtown Toronto typewriter sales and repair shop was transformed into one of the most revered personal computer companies in the world, shipping more units world-wide than any other computer company. However, the departure of Tramiel from Commodore in 1984 marked the beginning of the company's downfall. Commodore was loosing grounds to the IBM PC and Apple Macintosh platforms. The purchase of Amiga and the sales of its aging fleet of 8-bit computers sustained the company for a while but eventually, in 1994, Commodore began its liquidation. Commodore C108 description The Commodore C108 was a four-function low-cost electronic calculator designed by Omron Tateishi Electronic Co. and offered by Commodore in 1971. It was sold in North America and Europe. <ul> <li>operations: addition, subtraction, multiplication, and division,</li> <li>display: 8 digits, green vacuum-fluorescent tubes,</li> <li>keyboard: 17 keys including "clear",</li> <li>chipset: Omron ALPHA1, ALPHA2, and ALPHA3,</li> <li>power: AC only.</li> </ul> Museum holdings <ul> <li>Commodore C108 calculator, serial nr. 824667.</li> </ul> Creator An entity primarily responsible for making the resource Omron Tateishi Electronic Co. and Commodore Business Machines Date A point or period of time associated with an event in the lifecycle of the resource 1971 Coverage The spatial or temporal topic of the resource, the spatial applicability of the resource, or the jurisdiction under which the resource is relevant North America, Europe, 1970s calculator https://museum.eecs.yorku.ca/files/original/799b3d889e9d66edfee9c752434f24bb.jpg 8650aae07d84bf4724123fbc3514f4b0 https://museum.eecs.yorku.ca/files/original/056a1ad2a2d817137bee4d0f9eb853d9.jpg fbb87648b4cdc24139248f5d97de5681 Dublin Core The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/. Title A name given to the resource Wang 320SE calculator at York University Subject The topic of the resource hardware: electronic calcuator Description An account of the resource Historical context (by Z. Stachniak) The commercialization of the transistor in the first half of the 1950s had a dramatic impact on the decade-old computer industry. The all-transistor computers were offered as early as 1953 and, by the end of the 1950s, all major computer manufacturers were building transistorized machines. Similar shift to solid-state technology was made across consumer electronics industry (for example, in the mid-1950s, all-transistor radios quickly began to replace large and bulky vacuum tubes-based radio sets). Despite clear advantages that solid-state electronics had to offer to calculator manufacturers (if built, transistor-based  calculators would be smaller, quieter, more versatile, and virtually maintenance free when compared with the traditional desktop electro-mechanical calculators), the calculator industry was much slower in adopting the new technology. Calculator manufacturers were quite reluctant to venture into electronics when no competitors, even those with electronics divisions (such as Olivetti, Burroughs, Sony, and Canon), were putting any electronic calculators on the market. They were simply unwilling to go against their main core products that still delivered corporate wealth and prestige, they had no desire to invest substantial resources into concurrent divisions of electronic calculators that would internally compete with their best-performing divisions of electro-mechanical calculators. It was not until the early 1960s that the first solid-state calculators appeared on the consumer market and almost instantly gained consumer acceptance. While most of the early electronic calculators supported only rudimentary arithmetic operations with, in some cases, one or two memory registers for storing intermediate results, several firms introduced calculators with functionality that went far beyond that. The execution of short sequences of instructions (programs) was the most notable of these new features. Programs for such calculators could be keyed-in by an operator or read from an external storage media (such as punch cards) and, then executed as many times as desired by a single press of a key. In 1964, Massachusetts-based companies Mathatronics Inc. and Wang Laboratories Inc. introduced their first programmable calculators: the Mathatron and the LOCI-2, respectively. The following year, an Italian manufacturer of office equipment Olivetti introduced its Programma 101. All these programmable calculators were positioned to bridge the gap between ordinary desk-top calculators that offered instantaneous, personal, and easy to use operations but no substantial information processing capabilities, and the large and complex mainframe computers that required high-degree of training and long waiting times to perform users' computational tasks. Some of these calculators could be interfaced with a range of peripherals including printers, plotters, and external storage. Libraries of ready to run programs were also offered. Wang announced its new 300 Series programmable calculator in 1967. The calculator's more advanced models in the 300 series were offered in 1968. In their basic configuration, all these systems consisted of the central processing unit (CPU, referred to as "electronic package" in Wang's literature) and of up to four keyboard consoles remotely connected to the CPU. Using a standard keyboard console (model "K") a user could execute programs composed in terms of rudimentary arithmetic operations as well as square root, logarithmic and exponential functions. Programs of up to 80 steps were stored on dedicated punch cards and could be executed by reading them using an optional CP-1 Card Programmer interfaced with the calculator. Using a trigonometric keyboard unit (model "KT") a user could include trigonometric functions in programs. The calculator also offered random access storage (in up to four random access registers) and automatic summation of products, multipliers, and/or entries. Wang published a library of applications programs in areas ranging from engineering to finance. Wang 320SE at York University In the mid-1960s, York was rapidly growing and establishing new key departments. In 1965, Ralph W. Nicholls joined York University from the University of Western Ontario to form a new Department of Physics. In the same year, he became founding director of York's Centre for Research in Experimental Space Science (CRESS, later renamed the Centre for Research in Earth and Space Science) that quickly gained prominence in North America. Unfortunately, York's first computer--the IBM System/360 Model 30--was only installed in November 1966 and, until then, CRESS members had to rely on calculators and computer resources offered by the University of Toronto. In 1968, the Department of Physics moved into a newly constructed Petrie Science Building by which time a new IBM System/360 Model 40 was operational. In order to reduce the access to the new shared computer in cases that did not require full computational power of a mainframe computer, CRESS installed a Wong 320SE system in Petrie building. The 320SE system simulatneously supported four keyboard terminals. The calculator's CPU was located in one of the utility rooms. Each of the four terminal keyboards was placed in the hall of each floor. The calculator was decommissioned in the early 1990s. Museum's holdings Hardware: <ul> <li>Wang 320SE central processing unit,</li> <li>Wang 320K conventional keyboard terminals (3 units),</li> <li>Wang 320KT trigonometric keyboard terminal.</li> </ul> Manuals and promotional literature: <ul> <li>300 Series WANG Electronic Calculators -- Instruction Manual, Wang Laboratories Inc., 1967,</li> <li>300 Series Program Library, vol. 1, Wang Laboratories Inc., 1967,</li> <li>300 Series electronic calculator -- instruction manual, vol. 1, Wang Laboratories Inc., 1968,</li> <li>370 Series Programmable Calculating System, promotional brochure, Wang Laboratories Inc., 1968,</li> <li>370 System Reference Manual, vol. 1, Wang Laboratories Inc., 1968,</li> <li>370 Calculating System Program Library, vol. 1, Wang Laboratories Inc., 1968.</li> </ul> Creator An entity primarily responsible for making the resource Wang Laboratories Inc. Date A point or period of time associated with an event in the lifecycle of the resource 1968 Coverage The spatial or temporal topic of the resource, the spatial applicability of the resource, or the jurisdiction under which the resource is relevant York University, 1968-199? calculator https://museum.eecs.yorku.ca/files/original/28dd30e28d7cf0ad71142f63b4ef207b.jpg b0b72f7aa9115302c112a316ec01e8d7 Dublin Core The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/. Title A name given to the resource Burroughs Bookkeeping Machine Subject The topic of the resource hardware: electromechanical calculator Description An account of the resource Historical context (by Z. Stachniak) The industrial revolution of the 19th century brought new manufacturing methods and with them the ability to produce high quality precision instruments and mechanical devices in large quantities. The first typewriters appeared in the early 19th century and the first wave of useful calculators soon after in Europe and a few decades later in America. America entered the age of mechanical calculators in late 19th century, much later than Europe. When major European countries were undergoing extensive industrialization, the United States was still primarily involved in agriculture while Canada was not even on the map as a country. The Civil War of 1861-1865 did not help with the industrialization either, delaying the effects of the industrial revolution on the North American continent for a decade. It was not until after the Civil War when new forms of manufacturing (steam-powered) allowed the American industry to grow and spread across the nation. It was at that time, when a vibrant office equipment industry was created with calculator manufacturing centers in cities such as Chicago, Detroit, St. Louis, and Philadelphia. Large businesses, agencies, and institutions were expanding fast, putting more and more people into their offices. It quickly became evident that ever increasing number of calculation tasks could not be handled cost-effectively without appropriate calculating aids. While American institutions were looking for efficient ways for conducting their business, inventors and entrepreneurs were determined to supply them with all sorts of office gadgets. Two individuals—Dorr E. Felt and William S. Burroughs—played a key role in establishing the calculator industry. Both were determined to provide businesses with just the right kind of calculators: fast, accurate, easy to operate and, in the case of Burroughs' calulators, with printing capabilities. In the end, they created calculator empires that dominated the American calculator market well into the next century. When William S. Burroughs was working as a bank clerk, he envisioned the process of tedious arithmetic operations mechanized to such a degree that the results would also be automatically printed on paper. In the end, Burroughs not only designed such a machine—the Arithmometer (1884)—but also co-founded American Arithmometer Company in St. Louis to manufacture it. By the end of the 1800s, his company was successfully selling several hundred machines a year. In 1917, Burroughs Adding Machine Company of Detroit (formerly American Arithmometer Company of St. Louis) opened its Canadian subsidiary in Windsor, Ontario. Three years later, the Canadian branch moved to the newly constructed facility in Windsor at the corner of McDougall St. and Elliott St. Over the years, the Canadian subsidiary manufactured several calculators including motor-driven adding and listing Bookkeeping Machine and a range of portable adding machines. Burroughs Bookkeeping Machines The Burroughs Bookkeeping Machines were some of the most impressive adding machines made. Although they were large and heavy, their bevelled glass walls on three sides allowed viewing of their internal mechanical operations during calculations, certainly aimed at creating a "WOW" effect with a machine priced at between $615 to $715. The calculators offered between 6 to 17 columns of keys, a numeric display, and a printing mechanism with a wide carriage featuring a paper length setting and an end of page bell. These calculator could perform addition only. The multiplication could be done by repeated additions. Apart from numeric keys, Burroughs Bookkeeping Machines offered several "function" keys. A column could be cleared by pressing the red key at the top of that column. Other keys were designed to clear the entire keyboard, to perform repeated additions for multiplication, to calculate total and subtotal results as well as other functions depending on the calculator's model. Several options were provided including electric drive that eliminated manual use of a crank handle to perform calculations. This option offered a tabular steel frame with the motor and gearbox mounted underneath. Museum holdings <ul> <li>Burroughs Bookkeeping Machine (17 columns, electric), model/serial number C2-1286030, manufactured by Burroughs Adding Machine Company of Canada, Windsor, Ontario,</li> <li>Burroughs Portable Adding Machine, model/serial number 03-370060, manufactured by Burroughs Adding Machine Company of Canada (?)</li> </ul> Creator An entity primarily responsible for making the resource Burroughs Adding Machine Company of Canada Date A point or period of time associated with an event in the lifecycle of the resource 1920s(?) Contributor An entity responsible for making contributions to the resource The calculator was donated by Unisys Canada Inc. in 2016 Coverage The spatial or temporal topic of the resource, the spatial applicability of the resource, or the jurisdiction under which the resource is relevant World, the early 1900s calculator