Sim 1 - Introduction to Simulation
Simulating an FPGA design before hardware implementation is crucial. It allows us to: Verify functionality and logic without risking real hardware.
Read More +Simulating an FPGA design before hardware implementation is crucial. It allows us to: Verify functionality and logic without risking real hardware.
Read More +In this lab, we demonstrate how to automate simulations in Sci‐Compiler using register scripting . We focus on a Trigger LE Hyst block whose threshold is driven by a programmable register.
Read More +Introduction (Theoretical Background) Digital pulse shaping has become a cornerstone technique in modern nuclear spectroscopy, offering high flexibility and performance compared to its analog counterparts.
Read More +In this lab, we implement and simulate a Baseline Restorer (BLR) module that locks on to the baseline of an incoming signal while inhibiting baseline updates whenever a pulse is detected.
Read More +In this lab, we demonstrate how to discriminate pulses by computing the ratio of a pulse’s peak amplitude to its integrated area.
Read More +1. Core Idea of Position Sensing For a neutron-sensitive tube read out at both ends (Side A and Side B), the principle is:
Read More +In this lab, we simulate a simple application where a gamma-ray detector must recognize a high-rate (“burst”) event. We measure the event rate in a defined time window (e.
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