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--- community:applications [2021/09/24 19:27] – [White Papers in progress] yosimura
+++ community:applications [2022/07/24 11:05] (current) – [CEF01 Topical Group Report] yosimura
@@ Line 7: / Line 7: @@
 ===== Description=====
 The objective is to develop strategic planning and engagement that promote applications and technology transfers of knowledge gained in particle physics research. In addition, we would like to develop and improve mechanisms to disseminate impacts.
+===== CEF01 Topical Group Report =====
+The preliminary version of the report is {{ :community:cef_template_for_tg_report_a_i.pdf |here}}
+Report version after feedback from Summer Study Workshop {{ :community:cef_template_for_tg_report_july.pdf |here}}
 ===== White Papers in progress =====
 Application and Industry topical group is considering the relationship
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 **1.  Nurturing the Industrial Accelerator Technology Base in the US**\\
 //Lead author: Alan Todd, ammtodd[at]gmail.com//\\
-	The purpose of this white paper is to discuss the importance of
+The purpose of this white paper is to discuss the importance of
 having a world class domestic industrial vendors base, capable of
 supporting the needs of the accelerator facilities,
@@ Line 28: / Line 33: @@
 **2.  FLASH Radiation Therapy**\\
-//Lead author: Reinhard Schulte, rschulte[at]llu.edu//\\
+//Lead author: Reinhard Schulte, rschulte[at]llu.edu; Carol J Johnstone, cjj[at]fnal.gov//\\
 The purpose of this white paper is to discuss challenges and opportunities in the emerging field of FLASH radiation therapy (FLASH-RT).  FLASH-RT refers to ultra-high dose rate delivery of therapeutic radiation doses within microseconds to a fraction of a second. At these dose rates, radiation-induced side effects are greatly reduced, but tumors are not spared. The white paper will cover promising advances in the accelerator and detector technologies, which could potentially accelerate the development and practical realization of FLASH-RT.
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 **4.  Engaging with Scaleups**\\
 //Lead author: Ash Ravikumar, CERN//\\
+Most National labs have established programs to work with startups and large companies.  The gap that has been identified is engaging with Scaleups, which don't fit into either group. This document is a summary of the why, what and how we want to address this.
 **5.  Tech transfer from National Labs**\\
 //Lead author: Mauricio Suarez, Fermilab//\\
+This white paper focusses on how to facilitate start-ups resulting from National Lab IP. How to create a processes for national lab inventors to commercialize their technology.
 **6.  Application-driven engagement with universities leveraging synergies with other funding agencies**\\
 //Lead author: Jim Hoff, Fermilab, Seda Memik, Northwestern University//\\
+This white paper focusses on co-development of applications across various funding agencies. How to enable codevelopment of HEP instrumentation with other office of science experiments as well as beyond DOE initiatives such as for NASA, DARPA, NSF etc. Can engaging Electrical Engineering and Computer Science departments at Universities typically involved in programs supported by other federal agencies to work on HEP instrumentation be a starting step.
 **7.  Big Industry engagement to benefit HEP: Microelectronics Support from large CAD companies**\\
-//Lead author: Shaorui Li – tentatively//\\
+//Lead author: Shaorui Li, Fermilab//\\
+The development of modern microelectronics is a highly sophisticated and complex endeavor. There are few companies that have the capabilities to take on this challenge that requires a range of deep expertise in device and circuit performance and their limitations, as well as sophisticated Computer Aided Design (CAD) – Electronic Design Automation (EDA) tools. Application Specific Integrated Circuit (ASIC) Design for DOE extreme environments such as high ionization radiation or cryogenic temperatures does not have a significant commercial market to engage large companies in developing the required solutions. DOE national labs with academic and other collaborators spearhead the development of next generation instrumentation required for the DOE mission, however one major bottleneck is the access to low cost, high volume microelectronics CAD tools. The European community has established Europractise software by engaging the large CAD companies to provide reserach licenses we are investigating a similar possibility.