Varied widely depending on requirements of the computer.
You can compare this to first generation computers, the largest of which the IBM AN/FSQ-7 had about 50000 vacuum tubes.
You can compare this to modern multicore microprocessor based computers, a typical one of which has a couple hundred billion transistors per processor core integrated on one chip.
No specific person, there were many projects in the 1950s to transistorize the computer.
hard to say. there are so many different definitions of computer generations.
many five types generation of computer
Three. The first generation is the mom's generation. The second generation is the mom's children's generation. The third generation is the five children's children's generation.
In second generation of computer transistors were used Transistors were took place instead of vaccume tubes in 1st generation High lever languages were used such as COBSL , FORTRAN and these were still used for some application Many finanacial programms were used in this computers In 2nd generation of computer the instructions was stored inside the computer memory Out standing features for 2nd generation of computer 1 very small in size 2 less expensive 3 more storage capacity 4 reduction of heat 5 faster speed
No specific person, there were many projects in the 1950s to transistorize the computer.
The Second Generation has 393 pages.
V - The Second Generation - has 443 pages.
hard to say. there are so many different definitions of computer generations.
100. There are 251 Pokemon by the end of the second generation. The first 151 Pokemon were all first generation Pokemon. That leaves you with 100 second generation Pokemon.
many five types generation of computer
First Generation 5,Second Generation 5,Third Generation 7
It varied, most executed a few thousand instructions per second to a few tens of thousands of instructions per second. By the end of the first generation, high end machines like the IBM 709 and UNIVAC 1105 could do a few hundred thousand instructions per second.
There are no valves in a modern computer. If by valves you mean vacuum tubes, the equivalent is a transistor. Modern CPUs have many transistors/gates on their dies. The SandyBridge i7, a near-top end general purpose computer COU can have 2.2 billon transistor elements on the CPU die. Of course there are many more transistors incorporated in the logic chips, controllers and video cards in a computer as well.
Three. The first generation is the mom's generation. The second generation is the mom's children's generation. The third generation is the five children's children's generation.
Transistor transistor logic is one type of many different types of bipolar transistor based digital logic circuitry. It is very efficiently implemented in integrated circuit chips, needs only one power supply voltage, and operates at reasonably high speeds. Transistor transistor logic was first developed in the middle 1960s as a modification of the diode transistor logic, then in use in some digital logic integrated circuit chips but dating back to the earliest discrete bipolar transistor logic developed in the late 1950s and derived from vacuum tube point contact diode logic used in many early first generation computers. Transistor transistor logic integrated circuits dominated the computer and electronic digital controller market from the late 1960s until the middle 1980s, when metal oxide semiconductor field effect transistor based microprocessors and microcontrollers began to replace it. By the early 1990s transistor transistor logic and other bipolar transistor based digital logic integrated circuits had been replaced with equivalent complementary metal oxide semiconductor field effect transistor integrated circuits that were both faster and consumed less power (thus running much cooler) or with programmable logic devices of various types. In general transistor transistor logic is now considered obsolete.
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