SU828212A1 - Device for displaying graphic information on crt screen - Google Patents

Description

The invention relates to computing, to devices for outputting information from a computer and displaying it on a CRT screen.

A device is known for displaying graphical information on a CRT screen, g using the conversion of digital input values to analog and their further conversion already at the analog level [1] To build a graphic figure, the known device requires setting either only relative or only absolute coordinates, which requires expanding the memory of a storage device controlling image regeneration. fifteen

The closest in technical essence to the invention is a device that contains, for each of the coordinates, registers of initial coordinates, the outputs of which are connected to the corresponding first ₂ 0 code-voltage converters, and the first inputs to the output of the control unit, the input of which is connected to the input bus. The second output of the control unit is connected to the code-time converter 95 connected to the CRT modulator and the first inputs of the second code-voltage converters. The device also contains registers of final coordinates, the inputs of which are connected to the output of the control unit 30. The outputs of the code-voltage converters for each of the coordinates are connected to the corresponding adder connected to coordinate amplifiers connected to the CRT deflection system. To generate one segment in a known device, it is necessary to set the beginning of the segment in absolute coordinates, the length in relative coordinates and the length modulus, t. E. For each line of the graphic figure requires a large amount of information. To compress the amount of information on each line to a minimum, additional equipment is needed, but this reduces performance.

The aim of the invention is to increase the speed of the device while reducing the amount of information for defining graphic shapes.

This goal is achieved by the fact that the device for displaying graphic information on a CRT screen contains, for each coordinate, registers of initial coordinates, the outputs of which are connected to the corresponding first code-voltage converters, and the first inputs to the output of the control unit, the input of which is connected to input bus, the second input of the control unit is connected to the code converter 828212 - time connected to the CRT modulator and the first inputs of the second code - voltage converters, and the final coordinate registers, the inputs of which x are connected to the output of the control unit, 5 outputs of the code-voltage converters for each coordinate are connected to the corresponding adder connected to coordinate amplifiers connected to the CRT deflecting system, a unit for determining the increment order is introduced, and for each coordinate, a calculator and a shift register, some inputs of which are connected to the output of the corresponding calculator connected to the inputs of the increment order determining unit 15, other inputs - to the output of the increment order determining unit connected to code is time, the second inputs of each register of initial coordinates 20 are connected to the output of the calculator, and the outputs are connected to the corresponding first input of the calculator, the second input of which is connected to the output of the control unit, and the third input is connected to the output of the register of final coordinates.

The drawing shows a diagram of a device for displaying graphical information on a CRT screen.

The device contains register 1 of the final 30 coordinate X, register 2 of the initial coordinate X, the calculator coordinates 3, the first converter code - voltage along the coordinate X 4, the second converter code - voltage along the coordinate X 5, re-35 coordinate shift register X 6, the adder coordinates X 7, coordinate amplifier X 8, incrementing unit 9, code converter — time 10, register of final coordinate Y 11, register 40 of initial coordinate Y 12, calculator of coordinate Y 13, first converter code — voltage along coordinate Y 14, second pr code-forming - voltage coordinate Y 15, the shift register 45 coordinates Nata Y 16, Y coordinates of the adder 17, the coordinate V amplifier 18, CRT 19, the control unit 20 and input bus 21.

Registers 2 and 12 of the initial coordinates ^ outputs are connected to the corresponding ₅₀ converters 4 and 14 code - voltage. The first inputs of these registers are connected to the output of the control unit 20. The first input of which is connected to the input bus 21, the second input - with the Converter ₅₅ 10, CRT 19 includes a modulator and a deflecting system. The Converter 10 is connected to the CRT modulator and the first inputs of the second converters 5 and 15. Registers 1 and 11 of the final coordinates of the inputs _{60 are} connected to the output of the control unit 20. The outputs of the converters 4, 14, 5, 15 for each of the coordinates are connected to the corresponding adder 7 or 17, connected to the coordinate amplifiers 8 and 18, ₆₅ connected to the deflecting CRT system. Registers 6 and 16 inputs connected to the outputs of the respective computers 3 and 13 connected to the inputs of block 9 determine the order of increment. Other inputs of the registers 6 and 16 are connected to the output of the increment order determining unit 9 connected to the converter 10. The second inputs of each register 2 and 12 are connected to the output of the corresponding calculator 3 and 13, and the outputs are connected to the corresponding first input of the calculator 3 or 13, the second input which is connected to the output of the control unit 20, and the third input with the corresponding output of the register 1 or 11.

The device operates as follows.

The control unit 20 queries the information on the input bus 21, distributes it according to the corresponding coordinates, controls the recording of · new information in registers 1 and 11, determines the type of its job and sets the operation modes of calculators 3 and 13 (subtraction when absolute coordinates are set, addition with zero with relative job coordinates). Calculators 3 and 13 calculate the increments in the coordinates. In block 8 determining the order of increments, they are compared, and the order is calculated by the larger of the increments. In accordance with the computational order n in registers 6 and 16, each coordinate is shifted by N - n bits to the left (where N is the bit depth of coordinates), which corresponds to the multiplication of coordinate increments by 2 ^Ν ~ ^η , and in the converter 10, respectively, the generation time of the segment decreases by 2 ^N ~ ⁿ times from the maximum time. The shifted increment code in coordinates from the output of registers 6 and 16 is fed to the digital inputs of converters 5 and 15, where it is converted into the current (or voltage, and then into current) of the capacitance charge during the time determined by the output signal from converter 10. Signs of the output voltages converters 5 and 15 depend on the increment signs for each of the coordinate data defined in calculators 3 and 13. The code of the initial coordinates from registers 2 and 12 is converted on the first converters 4 and 14 to voltages that are summed with the output signals respective converters 5 and 15 in adders 7 and 17, and further through the amplifiers 8 and 18 comes to the CRT deflection system. At the end of the generation of the line at the output of the code-time converter, a signal is generated at the end of the generation, according to which the voltage is released in the converters 5 and 15, at the same time, the control unit 20 provides control signals to the computers 3 and 13 for setting them in the mode of calculating the coordinates of the end point of the line (addition with zero for absolute coordinate assignment, addition or subtraction depending on the sign of the increment with relative reference). At the end of the calculations, the control unit 20 issues a command to record the coordinates of the end point in the initial coordinate registers X and Y, which are the coordinates of the beginning to display the next segment.

Claims (2)

The code is the time connected to the CRT modulator and the first inputs of the second code-voltage transducers, and the final coordinate registers, whose inputs are connected to the output of the control unit, the code-voltage transducer outputs are connected to the corresponding totalizer connected to the coordinate amplifiers connected to the deflecting system of a CRT, a block for determining the order of increments is introduced, and for each of the coordinates — the calculator and the shift register, one inputs of which are connected to the output of the corresponding an opposite side connected to the inputs of the increment order definition block, other inputs to the output of the increment order definition block connected to the converter code - time, the second inputs of each register of initial coordinates are connected to the calculator's output, and the outputs to the corresponding first input of the calculator, the second the input of which is connected to the output of the control unit, and the third input to the corresponding output of the register of final coordinates. The drawing shows a diagram of a device for displaying graphical information on a CRT screen. The device contains the register 1 of the final coordinate X, the register 2 of the initial coordinate X, the calculator of the coordinate 3, the first converter code - voltage on X 4, the second converter code - voltage on X 5, coordinate shift register X 6, adder of X 7 , coordinate amplifier X 8, unit for determining the order of increments 9, converter code - time 10, register of final coordinate Y 11, register of initial coordinate Y 12, calculator of coordinate Y 13, first converter code - voltage on coordinate Y 14, second converter code generator - voltage on coordinate Y 15, shift register of coordinate Y 16, adder of coordinate Y 17, coordinate amplifier U 18, CRT 19, control unit 20 and input bus 21. Registers 2 and 12 of the initial coordinates: the outputs are connected to the appropriate converters 4 and 14 code - for example: Rie. The first inputs of these registers are connected to the output of control unit 20. The first input of which is connected to the input bus; 21, the second input to the converter 10, the CRT 19 includes a modulator and a diverting system. A converter 10 soy, is dinine with a CRT modulator and the first inputs of second converters 5 and 15. Registers 1 and 11 of the final coordinates of the inputs are connected to the output of control unit 20. The outputs of converters 4, 14, 5, 15 are connected to each of the coordinates with a corresponding adder 7 or 17 connected to coordinate amplifiers 8 and 18 connected to a deflecting system CRT. The registers 6 and 16 inputs are connected to the outputs of the respective calculators 3 and 13 connected to the inputs of the block 9 for determining the increment order. Other inputs of registers 6 and 16 are connected to the output of an increment order determining block 9 connected to converter 10. The second inputs of the cal-sd register 2 and 12 are connected to the output of the corresponding calculator 3 and 13, and the outputs to the corresponding first input of the calculator 3 or 13 whose second input is connected to the output of control unit 20, and the third input to the corresponding output of register 1 or 11. The device works as follows. The control unit 20 queries the information on the input bus 21, distributes it to the corresponding coordinates, controls the recording of new information in registers 1 and 11, determines the type of its task and sets the operation modes of the calculators 3 and 13 (subtraction with absolute setting of coordinates, addition with zero for relative positioning of coordinates). The calculators 3 and 13 calculate the increments over the coordinates. In block 8, the order of increments is compared, and the order of the larger of the increments is calculated. In accordance with the computational order p in registers 6 and 16, each of the coordinates is shifted by N - n bits to the left (where N is the coordinate size), which corresponds to the multiplication of coordinate increments by 2, and in the converter 10, respectively, the generation time of the segment is reduced times from the maximum time. The shifted increment code along the coordinates from the output of registers 6 and 16 is applied to the digital inputs of converters 5 and 15, where it is converted into current (or voltage, then charge) of the capacitor charge for a time determined by the output signal from converter 10. The signs of the output voltages of the converters 5 and 15 depend on the increment signs for each of the coordinate data defined in calculators 3 and 13. The code of the initial coordinates from registers 2 and 12 is converted on the first converters 4 and 14 to voltages that add up to output signals s respective converters 5 and 15 in adders 7 and 17, and further through the amplifiers 8 and 18 comes to the deflecting system of the CRT. At the end of the line generation at the output of the code-time converter, the end-of-generation signal is generated, through which a voltage drop occurs in converters 5 and 15, and simultaneously the control unit 20 outputs control signals to calculators 3 and 13 to set them in coordinate calculations. the end point of the line (addition with zero for an absolute assignment of coordinates, addition or subtraction depending on the sign of an increment for a relative assignment). Upon completion of the calculations, the control unit 20 issues a command to write the coordinates of the end point to the initial coordinate registers X and Y, which are the starting coordinates for the display of the next segment. An apparatus for displaying graphic information on a screen of a cathode ray tube, containing registers of initial coordinates for each coordinate whose outputs are connected to the corresponding first transducers, the code — voltage, the first inputs — to the output of the control unit, the first input of which is connected to the input bus, the second input of the control unit is connected to the converter code - time, connected to the modulator of the cathode ray tube and the first inputs of the second converters code - voltage, and register The final coordinates, the inputs of which are connected to the output of the control unit, the outputs of the converters code - voltage for each of the coordinates are connected to a corresponding adder connected to coordinate amplifiers connected to a deflection system of a cathode-ray tube, in order to increase speed devices, a block for determining the order of increments is entered into it and, for each of the coordinates, a calculator and a shift register, one of the inputs of which are connected to the output of the corresponding calculator connected to the inputs of the increment order determination block, other inputs to the output of the increment order determination block connected to the converter code - time, the second inputs of each register of initial coordinates are connected to the calculator output, and the outputs to the corresponding first input of the calculator, the second input of which is connected with the output of the control unit and the third input with the corresponding output of the register of final coordinates. Sources of information taken into account during the examination 1. USSR author's certificate JMb 344415, G 06F 3/14, 1971. 2. USSR author's certificate number 374590, G 06F 3/14, 1970 (prototype).