SU601689A1 - Arithmetic device - Google Patents

Description

one.

The invention relates to computing and can be used to build arithmetic devices operating in the system of residual classes.

Arithmetic units operating in a positional number system are known. These devices contain registers of operands, result, adder, blocks; shift and logic elements ij.

However, the known devices do not provide work; in the number system, the residual classes are not fast enough.

The closest technical solution to this proposal is a device containing a register of the first operand, a register of the second operand, a register-accumulator, a block for generating a result sign and an overflow indicator, a result register, a result sign register, operand sign registers, and the first operand register input is connected to the first . the input of the block to form the sign of the result and the overflow primer and to the first input of the block

the accumulator, the output of the second register register of the operand is connected to the second inputs of the register of the accumulator and the block to form the result sign and overflow sign, the outputs of the registers of the operands are connected to the corresponding inputs of the block to form the sign of the result and the sign nepei full, the first output of which is connected to the third input of the register of the accumulator , and the second output is connected to the input register of the sign of the result / output, of which; is a device for leaving the register of the housing register, connected to the result register entry and to the fifth input of the block to form a sign of the results and an overflow sign.

However, this known device does not provide execution of multiply and divide operations, floating point operations, and it has insufficient speed.

The aim of the invention is to increase speed.

Claims (2)

For this, three units of a positional indication of a nonpositional code, a multiplication unit, a division block, a shift block and an overflow sign register are entered into the device, the output of the register of the first operand is connected to the input of the first block 4curing the positional sign of the positioning code, to the input of the multiplication unit and to the input of the block division, the output of which is connected to the second input of the result register, the output of the first block of formation of the positional feature of the nonpositional code is connected to the input of the multiplication unit, the division block, re the source of the accumulator and the sign forming unit of the result and the overflow sign, to determine the sign, the register output of the second operand is connected to the inputs of the second and third positioning units of the nonpositional code, to the third input of the multiplication unit, the division unit, the second input of the shift unit, the output of the second formation unit The position sign of the non-position code is connected to the fourth input of the multiplication unit, the division block, the third input of the shift block, to the fifth input of the accumulator register, and to the sixth input of the pho to block mation result sign and overflow feature. the output of the third formation of the position mark of the counter code is connected to the fourth input of the shift block, the output of the multiplication block is connected to the third input of the result register, the fourth input of which is connected to the first output of the shift block, the second output of which is connected to the sixth and the overflow flag, the sixth input of the register-accumulator, the seventh input of the sign forming unit of the result and the overflow indicator, the first input of the block shifting, and t; and to control lodklyuchevy shzshe you Jaude result register is a second .vyhado; device, the second output of the formament sign of the result sign and the sign of PereiL1uz is connected to the input of the register of the sign of the multiplier, the output of which is the third output of the device, the control bus is connected to the corresponding inputs of the multiplication block, the shearing block, the accumulator and the sign forming unit overflow result and indication The drawing shows a structural electronic circuit diagram of the device. The arithmetic unit contains a register 1 of the first code, a register 2 of the second operand, a block 3-5 for forming a position sign "eno-code code multiplier 6, a division block 7, a register 8, a block 9 for forming the result sign and an overflow sign block shift 1О, registers 11 and 12 are the signs of the first and second ogGerans, result register 13, result sign 14 register, overflow sign register 15, first operand bus 1G, second operand bus 17, control bus 18, bus 19 and 20 of the first and second operands, bus 21 cut ltata, bus 22 the results mark: one characteristic tire overflow 23. Tires 16 and 17 of the first and second operand registers are connected to the inputs 1 and 2 of the first and second operands, respectively. Bus 19 and 20 characters of the first and second operands are connected to registers 11 and 12 characters of the first and second operands, respectively. Bus 21 is connected to the output of register 13, bus 22 is connected to the output of the register of the sign of the results 14, bus 23 is connected to the output of register 15. Bus 18 is connected to the corresponding inputs of the unit with a bit of NIN 6, division block 7, shift block 1Q, drive register 8, unit 9 for forming a sign of the result and an overflow sign. Arithmetic unit operates as follows. Operands A and B J represented in the number system of residual classes with their residuals A ((x, a2.,. Xn) and B (/ 5 ftur-P) on the basis of pj, p2J ..., p are stored in registers 1 n 2, and their signs 2; d and Z-, determined by the rule if X Jb O. if x O is stored in registers 11 and 12, the magnitudes of the positional attributes R d and T ope I-rand l and p are calculated in blocks 3 and 4. Depending on the magnitude of the signal C, on, given on the control unit and being the operation code performed in the arithmetic unit, one of blocks 6, 7, 8, 1 O works. This operation is stored in register 13. Unlike blocks 6-8, the operation performed in block 1O is performed only on it by operand B with positional signs but using the value of 7 °, the calculated symptom gh j by block 5. for double operand b The 2 J sign of the result .3 is indicated by block 9 and stored in the register 14. The signs A and B, which are stored in registers 11 and 12, are used for declaring the 2d and Z operands, the arithmetic unit can only be generated by the arithmetic unit operations of addition or subtraction by block 9.. or when executing the operation of shift of operand In block 10, it is memorized by register 13. Signal I) produced by block 9 and fed to block 8 is a signal for the possible formation of an addition to the range of CCS operands D or B and result 5. The invention allows to increase the speed at the expense of working in the system of numbers of NINs of residual classes, allowing independent processing of bits. The formula of the invention is an arithmetic unit containing a register of the first operand, a register of the second operand, a register-accumulator, a result sign and overflow indicator block, a result register, a result sign register, registers of operands, a control bus, and the output of the first register the operand is connected to the first input of the result sign forming unit and the overflow indicator and to the first input of the drive register; the output of the register of the second operand is connected to the second inputs of the drive register and pho frame E | The result of the sign of the result sign and overflow sign, the outputs of the operand sign registers are connected to the corresponding inputs of the result sign formation unit and the sign of the transducer, the first output of which is connected to the third input of the drive register, and the second output is connected to the register of the result sign to the first output of the device, the output of the register-accumulator is connected to the first input of the result register and to the fifth input of the result sign forming unit, and an overflow sign, characterized in that In order to increase speed, three units of a positional indication of a nonpositional code are entered into the device, a multiplication unit, a division unit, a shift unit, an overflow indication register, and the output of the first operand register is connected to the input of the first non-posi tional code generation unit, and to the input of the multiplier unit and the input of the target block, the output of which is connected to the second input of the result register, the output of the first block of the formation of the positional feature of the non-positional code is connected to the input of the block intelligently block, register of accumulator and block of forming the sign of the result and overflow sign and determining the sign, the register output of the second operand is connected to the inputs of the second and third blocks of forming the positional sign of the unknown code, to the third input of the multiplication block, block of division, the second input of the shift block , the output of the second block of the formation of the position sign of the non-position code is connected to the fourth input of the multiplication block, the division block, the third input of the 1 shift block to the fifth input of the drive register and to TONty Shesch to the input of the sign forming unit of the result and the overflow sign, the output of the third block forming the position sign of the non position code is connected to the fourth input of the shift block, the output of the multiplying block is connected to the third result register, the fourth input of which is connected to the first output of the shift block, the second output of which connected to the sixth input of the result sign forming unit and the overflow sign, the sixth input of the register, the seventh input of the result sign forming unit and the sign ne overflow, the first input of the shift unit, the fifth inputs of the multiplication unit and the division unit are connected to the control bus, the output of the result register is the second output of the device, the second output of the result sign forming unit and the overflow indicator is connected to the input of the overflow sign register, the output of which is the third the output of the device, the control bus is connected to the corresponding inputs of the multiplication unit, the driving unit, the shearing unit, the storage unit and the result sign forming unit and the overflow indicator. Sources of information taken into account in the examination: 1. Authors SBVdedelstvo USSR №393910, cl. (EOrR 7/38, 1972. 2. USSR author's certificate NO 419891, cl. Q About R7.38, 1972. 21