RU96120087A - MEMORY DIRECT ACCESS DEVICE (DA SD) WITH A CAPACITY OF MORE THAN 528 MEGABYTH AND METHOD OF ITS EMBODIMENT FOR PERSONAL COMPUTERS - Google Patents

Claims (63)

1. A computer system comprising a direct access storage device (DASD) with a rotatable medium for receiving, storing and issuing digital data, said DASD having a first predetermined number of cylinders and a second predetermined number of heads, wherein each cylinder is divided into a third predetermined number of sectors and said the heads exchange digital data with the sectors of the cylinders, and DASD has a digital data location determined by using the data on the memory addresses of the cylinder-head-sector, while the cylinders together, the sectors and sectors determine together the memory capacity for the specified device that exceeds five hundred twenty eight million four hundred eighty two thousand three hundred and four bytes of digital data, a microprocessor for processing digital data, and the microprocessor controls the exchange of digital data with DASD using cylinder-head memory addresses -sector ", and a control program available to the microprocessor to control the flow of digital data to and from DASD, and the microprocessor accesses the control program, downloads the control program and runs under the control of the control program, while the control program operates using the microprocessor and DASD, polling the DASD for the first specified number of cylinders, determining whether the first specified number of cylinders exceeds one thousand twenty four, repeating the operation of dividing the first given number by two, until the quotient of the division becomes less than one thousand twenty four, recording at the same time the number (N) of such repeated divisions, creating the first reference frame for the data cylinder-head-sector, wherein the first reference frame has a cylinder limit of up to one thousand twenty four and the number of heads limit to two hundred and fifty-six, creating a second reference frame for cylinder-head-sector data, the second reference frame having a number limit cylinders exceeding one thousand twenty four, and the limit of the number of heads to the second specified number of heads, and broadcasting digital data on memory addresses exchanged between the first and second reference frames, to allow data exchange with the entire capacity of the DASD memory, and the translation is performed by using the number (N) of repeated divisions by the first two given numbers.  2. The computer system according to claim 1, characterized in that it further comprises a memory element for receiving and storing a control program, said memory element being operatively connected to the microprocessor for accessing the control program from the microprocessor side.  3. The computer system according to claim 2, characterized in that the memory element contains a read-only memory device.  4. The computer system according to claim 2, characterized in that the memory element contains a non-volatile random access memory and that, in addition, the computer system contains an electric energy source operatively connected to the non-volatile random access memory for powering the non-volatile random access memory and ensuring the storage of the control program in it.  5. The computer system according to claim 1, characterized in that DASD is a DASD with a drive with a built-in controller and, in addition, the microprocessor and the control program are integrated into the DASD.  6. The computer system according to claim 1, characterized in that it further comprises a motherboard for supporting and connecting electrical elements of the computer system, an input / output channel, within the boundaries of the motherboard containing the channel connector, and a DASD controller board mounted in the channel connector, and, in addition, the microprocessor is mounted on the controller board, and the control program is stored on the controller board for access from the microprocessor.  7. The computer system according to claim 1, characterized in that it further comprises a motherboard for supporting and connecting electrical elements of the computer system, and in addition, the microprocessor is mounted on the motherboard, and the control program is stored on the motherboard for access from the microprocessor.  8. The computer system according to claim 7, characterized in that the microprocessor is a system processor for a computer system, the computer system, in addition, contains the program of the basic input / output system (B10S) and the control program is built into the program B10S.  9. The computer system according to claim 1, characterized in that the control program, operating with the help of a microprocessor and DASD, performs the function of transmitting digital data on CHS memory addresses, obtaining cylinder and head numbers for the second reference frame by multiplying the cylinder number from the first reference frame by 2N and dividing the head number from the first reference frame by a second predetermined number of heads.  10. The computer system according to claim 1, characterized in that the control program, which operates using a microprocessor and DASD, performs the function of transmitting digital data on CHS memory addresses, obtaining cylinder and head numbers for the first reference frame by dividing the cylinder numbers from the second reference frame by 2N and multiplying the head number from the second reference frame by 2N.  11. A computer system comprising a direct access storage device (DASD) with a rotating medium with a drive with an integrated controller (1DE) for receiving, storing and issuing digital data, wherein said 1DE DASD has a first predetermined number of cylinders and a second predetermined number of heads, each the cylinder is divided into a third predetermined number of sectors and said heads exchange digital data with the sectors of the cylinders, wherein 1DЕ DASD has a digital data location determined by using the memory address data and "cylinder-head-sector", while the cylinders, heads and sectors together determine the memory capacity for the specified device in excess of five hundred twenty eight million four hundred eighty two thousand three hundred and four bytes of digital data, a microprocessor for processing digital data, and the microprocessor is integrated into 1DE DASD also manages the exchange of digital data with 1DE DASD using cylinder-head-sector memory address data and a control program integrated in 1DE DASD and accessible by a microprocessor to control the flow of digital x data to and from 1DE DASD, the microprocessor accessing the control program, loading the control program and working under the control of the control program, while the control program operates with the help of the microprocessor and DASD, polling the DASD for the first specified number of cylinders, determining whether the first a predetermined number of cylinders one thousand twenty four, repeating the operation of dividing the first given number by two, until the quotient of the division becomes less than one thousand twenty four, registering in at the same time, the number (N) of such repeated divisions, creating the first reference frame for cylinder-head-sector data, the first reference frame having a cylinder limit of up to one thousand twenty-four and a limit of the number of heads to two hundred and fifty-six, creating a second reference frame a frame for cylinder-head-sector data, the second reference frame having a cylinder limit exceeding one thousand twenty four, and a limit on the number of heads to a second predetermined number of heads, and broadcasting digital data about memory addresses exchanged between the first and second reference frames to allow data exchange using the entire DASD memory capacity, the translation being performed by using the number (N) of repeated divisions by two first predetermined numbers.  12. The computer system according to claim 11, characterized in that it further comprises a memory element for receiving and storing a control program, said memory element being integrated in 1DE DASD and operatively connected to the microprocessor for accessing the control program from the microprocessor .  13. The computer system according to item 12, wherein the memory element contains a read-only memory device.  14. The computer system according to item 12, wherein the memory element contains a non-volatile random access memory and that, in addition, the computer system contains a source of electrical energy, operatively connected to a non-volatile random access memory to power the non-volatile random access memory and to provide storing the control program in it.  15. The computer system according to claim 11, characterized in that the control program, which operates using a microprocessor and DASD, performs the function of transmitting digital data on CHS memory addresses, obtaining cylinder and head numbers for the second reference frame by multiplying the cylinder number from the first reference frame by 2N and dividing the head number from the first reference frame by a second predetermined number of heads.  16. The computer system according to claim 11, characterized in that the control program, operating with the help of a microprocessor and DASD, performs the function of transmitting digital data on CHS memory addresses, obtaining cylinder and head numbers for the first reference frame by dividing the cylinder number from the second reference frame by 2N and multiplying the head number from the second reference frame by 2N.  17. A computer system containing a motherboard for supporting and connecting electrical elements of a computer system, an input / output channel within the boundaries of the motherboard, containing a channel connector, a direct access storage device (DASD) with a rotating medium for receiving, storing and issuing digital data, said DASD has a first predetermined number of cylinders and a second predetermined number of heads, wherein each cylinder is divided into a third predetermined number of sectors and said heads exchange digital data with sects cylinder heads, and DASD has a digital data location determined by using cylinder-head-sector memory address data, while cylinders, heads, and sectors determine together the memory capacity for the specified device in excess of five hundred twenty eight million four hundred eighty two thousand three hundred four bytes of digital data, a DASD controller board mounted in a channel connector, a microprocessor for processing digital data, and the microprocessor is mounted on the DASD controller board and controls the exchange nom of digital data with DASD, using data on cylinder-head-sector memory addresses and a control program stored on the controller board and accessible to the microprocessor to control the flow of digital data to and from DASD, and the microprocessor accesses the control program, downloads the control program and runs under the control of the control program, while the control program operates using a microprocessor and DASD, polling DASD relative to the first specified number of cylinders, determining whether the first a predetermined number of cylinders one thousand twenty four, repeating the operation of dividing the first given number by two, until the quotient of the division becomes less than one thousand twenty four, recording at the same time the number (N) of such repeated divisions, creating the first reference frame for the data cylinder-head-sector, with the first reference frame having a cylinder limit of up to one thousand twenty four and a number of head limit of two hundred and fifty-six, creating a second reference frame for cylinder-head-sector data, the second reference frame has a cylinder limit exceeding one thousand twenty four, and a limit on the number of heads to a second predetermined number of heads, and broadcasting digital data on the memory addresses exchanged between the first and second reference frames to allow data exchange using the entire DASD memory capacity moreover, the translation is performed by using the number (N) of repeated divisions by two first given numbers.  18. The computer system according to 17, characterized in that it further comprises a memory element for receiving and storing a control program, said memory element being mounted on a DASD controller board and operatively connected to the microprocessor for accessing the control program from the side microprocessor.  19. The computer system of claim 18, wherein the memory element comprises a read-only memory device.  20. The computer system according to p. 18, characterized in that the memory element contains a non-volatile random access memory and that, in addition, the computer system contains a source of electrical energy, operatively connected to a non-volatile random access memory for powering the non-volatile random access memory and ensuring the storage of the control program in it.  21. The computer system according to 17, characterized in that the control program that operates using a microprocessor and DASD, performs the function of transmitting digital data on the memory addresses CHS, receiving cylinder and head numbers for the second reference frame by multiplying the cylinder number from the first reference frame by 2N and dividing the head number from the first reference frame by a second predetermined number of heads.  22. The computer system according to claim 17, characterized in that the control program, operating with the help of a microprocessor and DASD, performs the function of transmitting digital data on CHS memory addresses, receiving cylinder and head numbers for the first reference frame by dividing the cylinder number from the second reference frame by 2N and multiplying the head number from the second reference frame by 2N.  23. A computer system comprising a motherboard for supporting and connecting electrical elements of a computer system, a direct access storage device (DASD) with a rotating medium for receiving, storing and issuing digital data, said DASD having a first predetermined number of cylinders and a second predetermined number of heads, wherein each cylinder is divided into a third predetermined number of sectors and said heads exchange digital data with sectors of the cylinders, wherein the DASD has a digital data location defined by by using data on the cylinder-head-sector memory addresses, while the cylinders, heads, and sectors determine together the memory capacity for the specified device in excess of five hundred twenty eight million four hundred eighty two thousand three hundred and four bytes of digital data, a microprocessor for processing digital data, moreover, the microprocessor is mounted on the motherboard and controls the exchange of digital data with DASD, using data on memory addresses "cylinder-head-sector", and a control program stored on the motherboard board and available to the microprocessor to control the flow of digital data to and from DASD, and the microprocessor accesses the control program, downloads the control program and runs under the control of the control program, while the control program operates using the microprocessor and DASD, polling the DASD relative to the first specified number cylinders, determining whether the first predetermined number of cylinders exceeds one thousand twenty four, repeating the operation of dividing the first predetermined number by two, while the quotient is divided will not be less than one thousand twenty four, registering at the same time the number (N) of such repeated divisions, creating the first reference frame for cylinder-head-sector data, and the first reference frame has a limit of the number of cylinders to one thousand twenty four and a limit on the number of heads to two hundred and fifty-six, creating a second reference frame for cylinder-head-sector data, the second reference frame having a cylinder limit exceeding one thousand twenty four, and a limit on the number of heads to the second number of heads, and translating digital data memory addresses exchanged between the first and second reference frames to enable the exchange of data with the full storage capacity DASD, wherein broadcasting is performed by using the number (N) divided by two repeating the first predetermined number.  24. The computer system according to claim 23, characterized in that it further comprises a memory element for receiving and storing the control program, said memory element being mounted on a DASD controller board and operatively connected to the microprocessor for accessing the control program from the side microprocessor.  25. The computer system according to paragraph 24, wherein the memory element contains a read-only memory device.  26. The computer system according to paragraph 24, wherein the memory element contains a non-volatile random access memory and that, in addition, the computer system contains a source of electrical energy, operatively connected to a non-volatile random access memory for powering a non-volatile random access memory and ensuring the storage of the control program in it.  27. The computer system according to paragraph 24, wherein the specified microprocessor is a system processor for a computer system, and the computer system, in addition, contains a basic input / output program (B10S), and the control program is built into the program B10S.  28. The computer system according to item 23, wherein the control program that operates using a microprocessor and DASD, performs the function of transmitting digital data on the memory addresses CHS, receiving cylinder and head numbers for the second reference frame by multiplying the cylinder number from the first reference frame by 2N and dividing the head number from the first reference frame by a second predetermined number of heads.  29. The computer system according to claim 23, characterized in that the control program, operating with the help of a microprocessor and DASD, performs the function of transmitting digital data on CHS memory addresses, receiving cylinder and head numbers for the first reference frame by dividing the cylinder number from the second reference frame by 2N and multiplying the head number from the second reference frame by 2N.  30. A personal computer system having a high-speed system processor compatible with application programs and an operating system designed to run on slower system processors, the personal computer system comprising: a high-speed microprocessor for processing digital data, the microprocessor having a real and protected mode of operation and electrically connected to a high speed data bus; non-volatile memory electrically connected to a low speed data bus; a bus controller for providing communication between a high speed data bus and a low speed data bus; volatile memory electrically connected to a high speed data bus; a memory controller electrically connected to the volatile memory and the non-volatile memory, wherein said memory controller controls the exchange of information between the volatile memory, the non-volatile memory and the high speed microprocessor; a direct access storage device (DASD) with a rotatable medium for receiving, storing and issuing digital data, said DASD having a first predetermined number of cylinders and a second predetermined number of heads, each cylinder being divided into a third predetermined number of sectors and said heads exchanging digital data with sectors cylinders, with DASD having a digital data location determined by using cylinder-head-sector memory address data, while the cylinders, heads and sectors are defined together the memory capacity for the specified device in excess of five hundred twenty eight million four hundred eighty two thousand three hundred and four bytes of digital data, and the microprocessor controls the exchange of digital data with DASD using data on memory addresses "cylinder-head-sector", and a control program available to the microprocessor, to control the flow of digital data to and from DASD, and the microprocessor accesses the control program, downloads the control program and works under the control of the control program, while the control program operates using a microprocessor and DASD, polling the DASD for the first predetermined number of cylinders, determining whether the first predetermined number of cylinders exceeds one thousand twenty four, repeating the operation of dividing the first preset number by two, until the quotient of the division is less than one thousand twenty-four, recording at the same time the number (N) of such repeated divisions, creating the first reference frame for cylinder-head-sector data, the first reference frame having a cylinder number limit up to one thousand twenty four and a limit on the number of heads to two hundred fifty six, creating a second reference frame for cylinder-head-sector data, the second reference frame having a cylinder limit exceeding one thousand twenty four and a limit on the number of heads to the second the number of heads, and broadcasting digital data on the memory addresses exchanged between the first and second reference frames, to allow data exchange using the entire DASD memory capacity, and translation is performed using t he (N) into two divisions repeating the first predetermined number.  31. The computer system according to p. 30, characterized in that the control program is stored in non-volatile memory.  32. The computer system according to p. 31, characterized in that the non-volatile memory contains a read-only memory device.  33. The computer system according to p. 31, characterized in that the non-volatile memory contains a non-volatile random access memory and that, in addition, the computer system contains a source of electrical energy, operatively connected to a non-volatile random access memory for powering a non-volatile random access memory and ensuring the storage of the control program in it.  34. The computer system according to p. 30, characterized in that the control program that operates using a microprocessor and DASD, performs the function of transmitting digital data on the memory addresses CHS, receiving cylinder and head numbers for the second reference frame by multiplying the cylinder number from the first reference frame by 2N and dividing the head number from the first reference frame by a second predetermined number of heads.  35. The computer system according to p. 30, characterized in that the control program, which operates using a microprocessor and DASD, performs the function of transmitting digital data on the memory addresses CHS, receiving cylinder and head numbers for the first reference frame by dividing the cylinder number from the second reference frame by 2N and multiplying the head number from the second reference frame by 2N.  36. A personal computer system having a high-speed system processor compatible with application programs and an operating system designed to run on slower system processors, the personal computer system comprising a high-speed microprocessor for processing digital data, the microprocessor having a real and protected mode of operation and electrically connected to a high speed data bus; non-volatile memory electrically connected to a low speed data bus; a bus controller for providing communication between a high speed data bus and a low speed data bus; volatile memory electrically connected to a high speed data bus; a memory controller electrically connected to the volatile memory and the non-volatile memory, wherein said memory controller controls the exchange of information between the volatile memory, the non-volatile memory and the high speed microprocessor; direct access storage device (DASD) with a rotatable medium and an integrated drive controller (1DE) for receiving, storing and issuing digital data, wherein said 1DE DASD has a first predetermined number of cylinders and a second predetermined number of heads, each cylinder being divided into a third predetermined number of sectors and said heads exchange digital data with cylinder sectors, wherein 1DE DASD has a digital data location determined by using cylinder-head-sector memory address data, while Indra, heads and sectors together determine the memory capacity for the specified device in excess of five hundred twenty eight million four hundred eighty two thousand three hundred and four bytes of digital data, a second microprocessor for processing digital data, the second microprocessor integrated in 1DE DASD and controls the exchange of digital data with 1DE DASD using cylinder-head-sector memory address data and a control program integrated in 1DE DASD and available to a second microprocessor to control the flow of digital data to and from 1DЕ DASD, and the second microprocessor accesses the control program, loads the control program and runs under the control of the control program, while the control program operates with the help of the microprocessor and DASD, polling the DASD for the first specified number of cylinders, determining whether the first specified number of cylinders exceeds one one thousand twenty four, repeating the operation of dividing the first given number by two, until the quotient of the division becomes less than one thousand twenty four, registering at the same Consuming the number (N) of such repeated divisions, creating the first reference frame for cylinder-head-sector data, the first reference frame having a cylinder limit of up to one thousand twenty-four and a head limit of two hundred and fifty-six, creating a second reference frame for cylinder-head-sector data, the second reference frame having a cylinder number limit exceeding one thousand twenty four, and a limit on the number of heads to a second predetermined number of heads, and broadcasting digital data about memory addresses that we exchange the first and second reference frames to allow data exchange using the entire DASD memory capacity, and broadcasting is performed by using the number of (N) repeated divisions by the first two specified numbers.  37. The computer system according to clause 36, wherein it further comprises a memory element for receiving and storing the control program, said memory element being integrated in 1DE DASD and operatively connected to the second microprocessor for accessing the control program from the side second microprocessor.  38. The computer system according to clause 37, wherein the memory element contains a read-only memory device.  39. The computer system according to clause 37, wherein the specified memory element contains a non-volatile random access memory and that, in addition, the computer system contains a source of electrical energy, operatively connected to a non-volatile random access memory for powering a non-volatile random access memory and to ensure that the control program is stored in it.  40. The computer system according to clause 36, wherein the control program that operates using a microprocessor and DASD, performs the function of transmitting digital data on the memory addresses CHS, receiving cylinder and head numbers for the second reference frame by multiplying the cylinder number from the first reference frame by 2N and dividing the head number from the first reference frame by a second predetermined number of heads.  41. The computer system according to p. 36, characterized in that the control program, operating using a microprocessor and DASD, performs the function of transmitting digital data about the memory addresses of CHS, receiving cylinder and head numbers for the first reference frame by dividing the cylinder number from the second reference frame by 2N and multiplying the head number from the second reference frame by 2N.  42. A personal computer system having a high-speed system processor compatible with application programs and an operating system designed to run on slower system processors, the personal computer system comprising a motherboard for supporting and connecting electrical elements of the computer system, a high-speed microprocessor mounted on said motherboard for processing digital data, and the microprocessor has a real and secure mode of operation s and electrically connected to the high speed data bus; non-volatile memory electrically connected to a low speed data bus; an input / output channel within the boundaries of the motherboard containing a channel connector electrically connected to the low-speed data bus, a bus controller to provide communication between the high-speed data bus and the low-speed data bus; volatile memory electrically connected to a high speed data bus; a memory controller electrically connected to the volatile memory and the non-volatile memory, wherein said memory controller controls the exchange of information between the volatile memory, the non-volatile memory and a high-grade microprocessor; a direct access storage device (DASD) with a rotatable medium for receiving, storing and issuing digital data, the indicated one having a first predetermined number of cylinders and a second predetermined number of heads, each cylinder being divided into a third predetermined number of sectors and said heads exchanging digital data with cylinder sectors wherein the DASD has a digital data location determined by using cylinder-head-sector memory address data, while the cylinders, heads, and sectors determine together the capacitance memory for the specified device, in excess of five hundred twenty eight million four hundred eighty two thousand three hundred and four bytes of digital data, a DASD controller board mounted in a channel socket, a second microprocessor for processing digital data, the second microprocessor mounted on a DASD controller board and controls the exchange of digital data with DASD, using cylinder-head-sector memory address data and a control program stored on the controller board and available to the second microprocessor to control the digital data stream to and from DASD, and the second microprocessor accesses the control program, loads the control program and runs under the control of the control program, while the control program operates using the second DASD microprocessor, polling the DASD relative to the first specified number of cylinders, determining whether the first preset number of cylinders is one thousand twenty four, repeating the operation of dividing the first preset number by two, until the quotient of the division becomes less than one thousand two twenty-four, recording at the same time the number (N) of such repeated divisions, creating the first reference frame for cylinder-head-sector data, the first reference frame having a cylinder limit of up to one thousand twenty four and a limit of the number of heads up to two hundred and fifty six, creating a second reference frame for cylinder-head-sector data, the second reference frame having a cylinder limit exceeding one thousand twenty four, and a limit on the number of heads to a second predetermined number of heads, and broadcasting digitally data on memory addresses exchanged between the first and second reference frames to allow data exchange using the entire DASD memory capacity, and translation is performed by using the number of (N) repeated divisions by the first two specified numbers.  43. The computer system according to item 42, wherein in addition, it contains a memory element for receiving and storing the control program, said memory element being mounted on the DASD controller board and operatively connected to the second microprocessor for accessing the control program from the side of the second microprocessor.  44. The computer system according to item 43, wherein the memory element contains a read-only memory device.  45. The computer system according to item 43, wherein the specified memory element contains a non-volatile random access memory and that, in addition, the computer system contains a source of electrical energy, operatively connected to a non-volatile random access memory for powering a non-volatile random access memory and to ensure that the control program is stored in it.  46. The computer system according to § 42, wherein the control program, which operates using a microprocessor and DASD, performs the function of transmitting digital data on CHS memory addresses, obtaining cylinder and head numbers for the second reference frame by multiplying the cylinder number from the first reference frame by 2N and dividing the head number from the first reference frame by a second predetermined number of heads.  47. The computer system according to p. 42, characterized in that the control program, operating using a microprocessor and DASD, performs the function of transmitting digital data about the memory addresses of CHS, receiving cylinder and head numbers for the first reference frame by dividing the cylinder number from the second reference frame by 2N and multiplying the head number from the second reference frame by 2N.  48. The method of functioning of a computer system that has a direct access storage device (DASD) with a rotating medium for receiving, storing and issuing digital data, moreover, said DASD has a first predetermined number of cylinders and a second predetermined number of heads, each cylinder being divided by a third predetermined number sectors and these heads exchange digital data with sectors of the cylinders, and DASD has a location in it of digital data, determined by using cylinder-head-sector (CHS) data, when than cylinders, heads and sectors together determine the memory capacity for DASD in excess of five hundred twenty eight million four hundred eighty two thousand three hundred and four bytes of digital data, a microprocessor for processing digital data, the microprocessor controlling the exchange of digital data with DASD using data about CHS memory addresses, and a control program available to the microprocessor for controlling the flow of digital data to and from DASD, the method comprising the following steps: access the microprocessor to the control program, load control program and under the control of the control program, polling DASD regarding the first given number of cylinders, determining whether the first specified number of cylinders exceeds one thousand twenty four, repeating division by two of the first given number until the quotient of the division is less than one thousand twenty four, with the simultaneous registration of the number (N) of such repeated divisions, the creation of the first reference frame for CHS data, and the first reference frame has a limit of the number of cylinders to one thousand twenty four and a limit on the number of heads to two hundred and fifty-six, creating a second reference frame for CHS data, the second reference frame having a limit on the number of cylinders exceeding one thousand twenty four, and a limit on the number of heads to a second predetermined number of heads, and broadcasting digital data of CHS memory addresses, which the first and second reference frames are exchanged to allow data exchange with the entire DASD memory capacity, the translation step being performed using the number (N) of repeated divisions by the first two preset numbers.  49. The method of claim 48, wherein the step of translating the digital data of the CHS memory addresses comprises a step of calculating cylinder and head numbers for the second reference frame by multiplying the cylinder number from the first reference frame by 2N and dividing the head number from the first reference frame by 2N .  50. The method of claim 48, wherein the step of translating the digital data of the CHS memory addresses comprises steps for calculating cylinder and head numbers for the first reference frame by dividing the cylinder number from the second reference frame by 2N and multiplying the head number from the second reference frame by 2N .  51. The method of claim 48, wherein the step of translating the digital data of the CHS memory addresses comprises the steps of: responding to issuing a drive command by requesting a value of N; then determining whether N is equal to or greater than zero; then a reaction to determining that N is zero by forwarding the cylinder address and head address without translation; a reaction to determining that N is greater than zero by multiplying the cylinder address by 2N and N dividing the head address by a second predetermined number and storing the remainder of dividing the head address by a second predetermined number as the translated head address; then summing the quotient of dividing the head address by a second predetermined number and cylinder addresses by means of a logical OR operation and storing the result as a translated cylinder address; then forwarding the cylinder and head addresses thus translated.  52. The method of functioning of a computer system that has a direct access storage device (DASD) with rotating media and an integrated drive controller (1DE) for receiving, storing and issuing digital data, wherein said 1DE DASD has a first predetermined number of cylinders and a second predetermined number of heads, moreover, each cylinder is divided into a third predetermined number of sectors and these heads exchange digital data with the sectors of the cylinders, and 1DE DASD has a digital data location in it, determined by using cylinder-head-sector (CHS) data, and the head and sector cylinders together determine the memory capacity for 1DE DASD in excess of five hundred twenty eight million four hundred eighty two thousand three hundred and four bytes of digital data, a microprocessor integrated into IDE DASD electronic circuits, for processing digital data, the microprocessor controlling the exchange of digital data from the IDE DASD using CHS data and a control program available to the microprocessor to control the flow of digital data to and from the IDE DASD, the method comprising next steps: access of the microprocessor to the control program, loading of the control program and, under the control of the control program, polling DASD regarding the first specified number of cylinders, determining whether the first specified number of cylinders exceeds one thousand twenty four, repeating division by two of the first given number, while the quotient from the division will not become less than one thousand twenty four, with the simultaneous registration of the number (N) of such repeated divisions, the creation of the first reference frame for CHS data that is used outside the IDE DASD, with the first reference frame having a cylinder limit of up to one thousand twenty four and the head number limit of up to two hundred fifty six, creating a second reference frame for CHS data that is used inside the IDE DASD, the second reference frame having a cylinder number limit, exceeding one thousand twenty four, and the limit of the number of heads to the second specified number of heads and the translation of digital data of memory addresses CHS, exchanged between the first and second reference frames, to allow data exchange with the entire IDE DASD memory capacity, and the translation step is performed using the number (N) of repeated divisions by the first two preset numbers.  53. The method according to paragraph 52, wherein the step of translating the digital data of the CHS memory addresses comprises a step of calculating cylinder and head numbers for the second reference frame by multiplying the cylinder number from the first reference frame by 2N and dividing the head number from the first reference frame by the second set number of heads.  54. The method according to paragraph 52, wherein the step of translating the digital data of the CHS memory addresses comprises the steps of calculating cylinder and head numbers for the first reference frame by dividing the cylinder number from the second reference frame by 2N and multiplying the head number from the second reference frame by 2N .  55. The method according to paragraph 52, wherein the step of translating the digital data of the CHS memory addresses comprises the steps of: responding to issuing a drive command by requesting a value of N; then determining whether N is equal to or greater than zero; then a reaction to determining that N is zero by forwarding the cylinder address and head address without translation; a reaction to determining that N is greater than zero by multiplying the cylinder address by 2N and dividing the head address by a second predetermined number and storing the remainder of dividing the head address by a second predetermined number as the translated head address; then summing the quotient of dividing the head address by a second predetermined number and cylinder addresses by means of a logical OR operation and storing the result as a translated cylinder address; then forwarding the cylinder and head addresses thus translated.  56. The method of functioning of a computer system that has a direct access storage device (DASD) with a rotating medium for receiving, storing and issuing digital data, said DASD having a first predetermined number of cylinders and a second predetermined number of heads, each cylinder being divided by a third predetermined number sectors and these heads exchange digital data with the sectors of the cylinders, and DASD has a location in it of digital data, determined by using cylinder-head-sector (CHS) data, etc. Why do cylinders, heads and sectors together determine the memory capacity for DASD in excess of five hundred twenty eight million four hundred eighty two thousand three hundred and four bytes of digital data, a motherboard for supporting and connecting electrical elements of a computer system, the motherboard containing an input / output channel, which has a channel connector, a DASD controller board mounted in the channel connector and having a microprocessor for processing digital data, and the microprocessor controls the exchange of digital data with DASD using CHS data and a control program stored on the board and accessible by the microprocessor to control the flow of digital data to and from DASD, the method comprising the following steps: access the microprocessor to the control program, load the control program and, under the control of the control program , a DASD survey regarding the first predetermined number of cylinders, determining whether the first predetermined number of cylinders exceeds one thousand twenty four, repeating division by two of the first predetermined number, so far as a quotient of division will not be less than one thousand twenty four, with the simultaneous registration of the number (N) of such repeated divisions, the creation of the first reference frame for CHS data for use outside the DASD controller board, and the first reference frame has a cylinder limit of up to one thousand twenty four and a limit of the number of heads up to two hundred and fifty-six, creating a second reference frame for CHS data for use by their DASD and DASD controller board, the second reference frame having a cylinder limit exceeding one thousand and twenty four, and the limit of the number of heads to the second specified number of heads and the translation of digital data of CHS memory addresses exchanged between the first and second reference frames to allow data exchange with the entire DASD memory capacity, and the translation step is performed using the number (N) of repeated divisions by two first given numbers.  57. The method of claim 56, wherein the step of translating the digital data of the CHS memory addresses comprises a step of calculating cylinder and head numbers for the second reference frame by multiplying the cylinder number from the first reference frame by 2N and dividing the head number from the first reference frame by the second set number of heads.  58. The method of claim 56, wherein the step of translating the digital data of the CHS memory addresses comprises the steps of calculating cylinder and head numbers for the first reference frame by dividing the cylinder number from the second reference frame by 2N and multiplying the head number from the second reference frame by 2N .  59. The method of claim 56, wherein the step of translating the digital data of the CHS memory addresses comprises the steps of: responding to issuing a drive command by requesting a value of N; then determining whether N is equal to or greater than zero; then a reaction to determining that N is zero by forwarding the cylinder address and head address without translation; a reaction to determining that N is greater than zero by multiplying the cylinder address by 2N and dividing the head address by a second predetermined number and storing the remainder of dividing the head address by a second predetermined number as the translated head address; then summing the quotient of dividing the head address by a second predetermined number and cylinder addresses by means of a logical OR operation and storing the result as a translated cylinder address; then forwarding the cylinder and head addresses thus translated.  60. The method of functioning of a computer system that has a direct access storage device (DASD) with a rotating medium and for receiving, storing and issuing digital data, and DASD has a first predetermined number of cylinders and a second predetermined number of heads, each cylinder divided by a third predetermined number sectors and these heads exchange digital data with the sectors of the cylinders, and DASD has a location in it of digital data, determined by using "cylinder-head-sector" (CHS) data, and The heads and sectors together determine the memory capacity for DASD in excess of five hundred twenty eight million four hundred eighty two thousand three hundred and four bytes of digital data, a motherboard for supporting and connecting the electrical elements of a computer system, the motherboard having a system microprocessor for processing digital data, the microprocessor controls the exchange of digital data with DASD using CHS data, and a control program stored on the motherboard and accessible by the microprocessor to control the flow of digital data to and from DASD, the method comprising the following steps: access the microprocessor to the control program, load the control program and, under the control of the control program, poll DASD regarding the first predetermined number of cylinders, determine whether the first predetermined number of cylinders exceeds one thousand twenty four, repeated division into two first given numbers, until the quotient of the division becomes less than one thousand twenty four, with simultaneous registration of the number (N) of such repeated divisions, creating a first reference frame for CHS data that is used outside of DASD, the first reference frame having a cylinder number limit of up to one thousand twenty four and a head limit of up to two hundred fifty six, creating a second reference frame for CHS data used inside DASD, the second the reference frame has a limit of the number of cylinders exceeding one thousand twenty four, and a limit of the number of heads to a second predetermined number of heads and the translation of digital data of CHS memory addresses exchanged by the first and a second reference frames, for allowing data exchange with the entire capacity of the DASD memory, the translation step being performed using the number (N) of repeated divisions by the first two preset numbers.  61. The method of claim 60, wherein the step of translating the digital data of the CHS memory addresses comprises a step of calculating cylinder and head numbers for the second reference frame by multiplying the cylinder number from the first reference frame by 2N and dividing the head number from the first reference frame by the second set number of heads.  62. The method of claim 60, wherein the step of translating the digital data of the CHS memory addresses comprises the steps of calculating cylinder and head numbers for the first reference frame by dividing the cylinder number from the second reference frame by 2N and multiplying the head number from the second reference frame by 2N .  63. The method of claim 60, wherein the step of translating the digital data of the CHS memory addresses comprises the steps of: responding to issuing a drive command by requesting a value of N; then determining whether N is equal to or greater than zero; then the reaction to determining that N is zero by forwarding the cylinder address and the head address without translation, the reaction to determining that N is greater than zero by multiplying the cylinder address by 2 N and dividing the head address by a second preset number and storing the remainder of dividing the head address by the second preset number as the translated head address, then summing the quotient of dividing the head address by the second preset number and cylinder addresses by the logical OR operation and saving the result as a translate cylinder address; then forwarding the cylinder and head thus translated.