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1. About Floating-Point IP Cores
2. FP_ACC_CUSTOM Intel® FPGA IP or Floating Point Custom Accumulator Intel® FPGA IP Core
3. ALTFP_ADD_SUB IP Core
4. ALTFP_DIV IP Core
5. ALTFP_MULT IP Core
6. ALTFP_SQRT
7. ALTFP_EXP IP Core
8. ALTFP_INV IP Core
9. ALTFP_INV_SQRT IP Core
10. ALTFP_LOG
11. ALTFP_ATAN IP Core
12. ALTFP_SINCOS IP Core
13. ALTFP_ABS IP Core
14. ALTFP_COMPARE IP Core
15. ALTFP_CONVERT IP Core
16. FP_FUNCTIONS Intel® FPGA IP or Floating Point Functions Intel® FPGA IP Core
17. Floating-Point IP Cores User Guide Document Archives
18. Document Revision History for the Floating-Point IP Cores User Guide
1.1. List of Floating-Point IP Cores
1.2. Installing and Licensing Intel® FPGA IP Cores
1.3. Design Flow
1.4. Upgrading IP Cores
1.5. Floating-Point IP Cores General Features
1.6. IEEE-754 Standard for Floating-Point Arithmetic
1.7. Non-IEEE-754 Standard Format
1.8. Floating-Points IP Cores Output Latency
1.9. Floating-Point IP Cores Design Example Files
1.10. VHDL Component Declaration
1.11. VHDL LIBRARY-USE Declaration
2.1. FP_ACC_CUSTOM Intel® FPGA IP or Floating Point Custom Accumulator Intel® FPGA IP Features
2.2. FP_ACC_CUSTOM Intel® FPGA IP or Floating Point Custom Accumulator Intel® FPGA IP Output Latency
2.3. FP_ACC_CUSTOM Intel® FPGA IP Resource Utilization and Performance
2.4. FP_ACC_CUSTOM Intel® FPGA IP or Floating Point Custom Accumulator Intel® FPGA IP Signals
2.5. FP_ACC_CUSTOM Intel® FPGA IP or Floating Point Custom Accumulator Intel® FPGA IP Parameters
15.1. ALTFP_CONVERT Features
15.2. ALTFP_CONVERT Conversion Operations
15.3. ALTFP_CONVERT Output Latency
15.4. ALTFP_CONVERT Resource Utilization and Performance
15.5. ALTFP_CONVERT Design Example: Convert Double-Precision Floating-Point Format Numbers
15.6. ALTFP_CONVERT Signals
15.7. ALTFP_CONVERT Parameters
16.1. FP_FUNCTIONS Intel® FPGA IP or Floating Point Functions Intel® FPGA IP Features
16.2. FP_FUNCTIONS Intel® FPGA IP or Floating Point Functions Intel® FPGA IP Output Latency
16.3. FP_FUNCTIONS Intel® FPGA IP or Floating Point Functions Intel® FPGA IP Target Frequency
16.4. FP_FUNCTIONS Intel® FPGA IP or Floating Point Functions Intel® FPGA IP Combined Target
16.5. FP_FUNCTIONS Intel® FPGA IP Resource Utilization and Performance
16.6. FP_FUNCTIONS Intel® FPGA IP Signals
16.7. FP_FUNCTIONS Intel® FPGA IP Parameters
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3.6. ALTFP_ADD_SUB Signals
Figure 17. ALTFP_ADD_SUB
Port Name | Required | Description |
---|---|---|
aclr | No | Asynchronous clear input for floating-point adder or subtractor. The source is asynchronously reset when the aclr signal is asserted high. |
add_sub | No | Optional input port to enable dynamic switching between the adder and subtractor functions. The add_sub port must be used when the DIRECTION parameter is set to VARIABLE. When the add_sub port is high, result[] = dataa[] + datab[], otherwise, result[] = dataa[] - datab[]. |
clk_en | No | Clock enable to the floating-point adder or subtractor. This port allows addition or subtraction to occur when asserted high. When asserted low, no operations occur and the outputs are unchanged. |
clock | Yes | Clock input to the IP core. |
dataa[] | Yes | Data input to the floating-point adder or subtractor. The MSB is the sign bit, the next MSBs are the exponent, and the LSBs are the mantissa bits. The size of this port is the total width of the sign bit, the exponent bits, and the mantissa bits. |
datab[] | Yes | Data input to the floating-point adder or subtractor. This port is configured in the same way as dataa[]. |
Port Name | Required | Description |
---|---|---|
nan | Yes | NaN exception output. Asserted when an illegal addition or subtraction occurs, such as infinity minus infinity. When an invalid addition or subtraction occurs, a NaN value is output to the result[] port. Any adding or subtracting involving NaN values also produces a NaN value. |
overflow | Yes | Overflow exception port. Asserted when the result of the addition or subtraction, after rounding, exceeds or reaches infinity. Infinity is defined as a number in which the exponent exceeds 2 WIDTH_EXP -1. |
result[] | Yes | Floating-point output result. Like the input values, the MSB is the sign, the next MSBs are the exponent, and the LSBs are the mantissa. The size of this port is the total width of the sign bit, exponent bits, and mantissa bits. |
underflow | Yes | Underflow port for the adder or subtractor. Asserted when the result of the addition or subtraction, after rounding, the value is zero and the inputs are not equal. The underflow port is also asserted when the result is a denormalized number. |
zero | No | Zero port for the adder or subtractor. Asserted when the result[] port is zero. |