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1. Intel® Agilex™ 7 Variable Precision DSP Blocks Overview
2. Intel® Agilex™ 7 Variable Precision DSP Blocks Architecture
3. Intel® Agilex™ 7 Variable Precision DSP Blocks Operational Modes
4. Intel® Agilex™ 7 Variable Precision DSP Blocks Design Considerations
5. Native Fixed Point DSP Intel® Agilex™ FPGA IP Core References
6. Multiply Adder Intel® FPGA IP Core References
7. ALTMULT_COMPLEX Intel® FPGA IP Core Reference
8. LPM_MULT Intel® FPGA IP Core References
9. LPM_DIVIDE (Divider) Intel FPGA IP Core
10. Native Floating Point DSP Intel® Agilex™ FPGA IP References
11. Intel® Agilex™ 7 Variable Precision DSP Blocks User Guide Archives
12. Document Revision History for the Intel Agilex® 7 Variable Precision DSP Blocks User Guide
2.1.1. Input Register Bank for Fixed-point Arithmetic
2.1.2. Pipeline Registers for Fixed-point Arithmetic
2.1.3. Pre-adder for Fixed-point Arithmetic
2.1.4. Internal Coefficient for Fixed-point Arithmetic
2.1.5. Multipliers for Fixed-point Arithmetic
2.1.6. Adder or Subtractor for Fixed-point Arithmetic
2.1.7. Accumulator, Chainout Adder, and Preload Constant for Fixed-point Arithmetic
2.1.8. Systolic Register for Fixed-point Arithmetic
2.1.9. Double Accumulation Register for Fixed-point Arithmetic
2.1.10. Output Register Bank for Fixed-point Arithmetic
2.2.1. Input Register Bank for Floating-point Arithmetic
2.2.2. Pipeline Registers for Floating-point Arithmetic
2.2.3. Multipliers for Floating-point Arithmetic
2.2.4. Adder or Subtractor for Floating-point Arithmetic
2.2.5. Output Register Bank for Floating-point Arithmetic
2.2.6. Exception Handling for Floating-point Arithmetic
3.2.2.1. FP16 Supported Precision Formats
3.2.2.2. Sum of Two FP16 Multiplication Mode
3.2.2.3. Sum of Two FP16 Multiplication with FP32 Addition Mode
3.2.2.4. Sum of Two FP16 Multiplication with Accumulation Mode
3.2.2.5. FP16 Vector One Mode
3.2.2.6. FP16 Vector Two Mode
3.2.2.7. FP16 Vector Three Mode
5.1. Native Fixed Point DSP Intel® Agilex™ FPGA IP Release Information
5.2. Supported Operational Modes
5.3. Maximum Input Data Width for Fixed-point Arithmetic
5.4. Maximum Output Data Width for Fixed-point Arithmetic
5.5. Parameterizing Native Fixed Point DSP IP
5.6. Native Fixed Point DSP Intel® Agilex™ FPGA IP Signals
10.1. Native Floating Point DSP Intel® Agilex™ FPGA IP Release Information
10.2. Native Floating Point DSP Intel® Agilex™ FPGA IP Core Supported Operational Modes
10.3. Parameterizing the Native Floating Point DSP Intel® Agilex™ FPGA IP
10.4. Native Floating Point DSP Intel® Agilex™ FPGA IP Core Signals
10.4.1. FP32 Multiplication Mode Signals
10.4.2. FP32 Addition or Subtraction Mode Signals
10.4.3. FP32 Multiplication with Addition or Subtraction Mode Signals
10.4.4. FP32 Multiplication with Accumulation Mode Signals
10.4.5. FP32 Vector One and Vector Two Modes Signals
10.4.6. Sum of Two FP16 Multiplication Mode Signals
10.4.7. Sum of Two FP16 Multiplication with FP32 Addition Mode Signals
10.4.8. Sum of Two FP16 Multiplication with Accumulation Mode Signals
10.4.9. FP16 Vector One and Vector Two Modes Signals
10.4.10. FP16 Vector Three Mode Signals
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2.2.5. Output Register Bank for Floating-point Arithmetic
The positive edge of the clock signal triggers the 48-bit (32 bits data and 16 bits exception flags) bypassable output register bank. This register is not reset after power up and may hold unwanted data. Use the CLR signal to reset the register before starting an operation.
Figure 14. Location of Output Register for FP32 Operation Modes
Figure 15. Location of Output Register for FP16 Operation Modes
The following variable precision DSP block signals control the output register per variable precision DSP block:
- CLK
- ENA[2..0]
- CLR[1]
Related Information