Verification Environment for ALTIROC3 ASIC in ATLAS High Granularity Timing Detector
The verification environment for the ALTIROC3 ASIC in the ATLAS High Granularity Timing Detector is crucial for the upgrades in the ATLAS HL-LHC experiment, aiming to improve particle detection performance in the forward region, mitigate pile-up effects, and provide luminosity measurement. The ALTIR
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Modelling and Exploration of Coarse-Grained Reconfigurable Arrays Using CGRA-ME Framework
This content discusses the CGRA-ME framework for modelling and exploration of Coarse-Grained Reconfigurable Arrays (CGRA). It covers the objectives, architecture description, inputs required, and tools included in the framework. CGRA-ME allows architects to model different CGRA architectures, map ap
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Enhancing National Lab Internship Programs for ASIC Design Students
Establishing regular internship programs at National Labs for ASIC design students to bridge the gap between academia and industry. This initiative aims to provide students exposure, on-the-job experience, and advance collaborative projects while enhancing technical expertise and potential job oppor
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Advancements in PET Readout Technology: PETAT1 Time-Sorting Readout ASIC
Cutting-edge PET readout systems now utilize specialized ASICs for data acquisition from SiPMs, eliminating the need for FPGAs and reducing complexity, space requirements, and power consumption. The PETAT1 ASIC, developed by P. Fischer and team at Heidelberg University, enables time-ordered hit data
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Advancements in Large-Area 3D Charge Readout for LArTPCs
Demonstrations featuring large-area 3D charge readout for Liquid Argon Time Projection Chambers (LArTPCs) were showcased by Peter Madigan at NorCal HEP-EXchange in December 2018. The challenges of readout in high-rate environments were discussed, along with the potential of pixelated TPCs in 3D LArT
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Understanding VHDL for ASIC Design: A Comprehensive Guide
Explore the world of VHDL for ASIC designs, covering topics such as modeling, simulation, HDLs in digital system design, anatomy of a VHDL model, port identifier modes, and data types. Learn how to define entities and architectures, declare I/O ports, handle signal directions, and understand naming
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Enhancing Workforce Development in Electronics for High Energy Physics (HEP)
Addressing the challenge of finding expertise in electronics, particularly in digital logic development for FPGA and ASIC, this initiative focuses on creating tools, structures, codebases, and educational programs to efficiently train the next generation. The aim is to improve local training efforts
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Hardware Offload BoF Discussion at Netdev01
Discussion at the Hardware Offload BoF session during Netdev01 focused on preserving the Linux networking model, exchanging ideas on capability determination, and addressing challenges in emulating hardware devices in switch models. Participants explored topics such as managing devices in a generic
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Advancements in CATIROC Technology for Neutrino Observatories
CATIROC is a smart readout ASIC developed for experiments like JUNO, a neutrino observatory. With applications in photon counting, energy measurement, and data processing, CATIROC offers advanced features such as charge and time measurements, digital data conversion, and trigger outputs for improved
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DARE180U Platform Enhancements in Release 5.6 - AMICSA 2018
The DARE180U platform introduces radiation-hardened ASIC design capabilities on UMC 0.18μm CMOS technology for space and high-energy physics applications. Supported by ESA and featuring ITAR-free components, it offers libraries, IP, and design services for front-end and back-end design flow. The pl
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Overview of Phase 0 Experiment with Straw Trackers at HADES
The Phase 0 Experiment involves including straw trackers in the program before PANDA commences at HADES. The upgrade features two new Forward Straw Tracker stations (STS1, STS2) for testing under experimental conditions. The physics program includes radiative hyperon decays, with STS1/2 tasked for s
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Advanced Concepts in Detector Design for High-Energy Physics Experiments
Advanced concepts in detector design for high-energy physics experiments are explored in this detailed document. It covers various aspects such as parameters, conceptual designs, radiation lengths of typical structures, thermal performance requirements, and cooling options. The content delves into s
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Understanding High-Level Synthesis (HLS) Process
High-Level Synthesis (HLS) is an automated design process that converts functional specifications into optimized hardware implementations at the Register-Transfer Level (RTL). It offers efficient hardware development using software specifications and program logic synthesis. HLS tools such as Verilo
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CEPC Time of Flight and Outer Tracker with LGAD Updates
Updates on the progress of CEPC's Time of Flight and Outer Tracker with LGAD by Yunyun Fan from IHEP. The information covers sensor design, CEPCSW progress, mechanics design for cooling the ASIC, hit rate estimations for electronics, and backups. Collaboration with Italian colleagues is highlighted
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SLAC CRYO: Waveform Digitizer/Serializer for Cryogenic TPC Experiments
SLAC is developing the CRYO ASIC, a high-performance waveform digitizer and serializer optimized for cryogenic operation in experiments like DUNE. The CRYO ASIC offers advanced features such as single-chip integration, programmability, on-chip regulation, and design for reliability. Operating in a 1
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