b'Copyright Assertion HighlightsCopyright is a legal right that grants the creators of original work, such as software, exclusive rights for its use and distribution. INL employees assign such rights to the company as a condition of employment. In accordance with BEAs contract with DOE, all rights are assigned to DOE unless BEA specifically requests authority to assert copyright. BEA requests the permission to assert copyright on software it intends to license via open source and traditional agreements.During FY 2021, INL received permission to assert copyright on 19 software programs. Since 2005, INL has been authorized by DOE to assert copyright protection on more than 150 pieces of software. Cybersecurity for the Operational Technology Environment (CyOTE) DOEs Office of Cybersecurity, Energy Security, and Emergency Response (CESER) worked with energy sector partners and Idaho National Laboratory to develop a methodology and detection capabilities for asset owners and operators to independently identify adversarial tactics, techniques, and procedures within their operational technology environments that could result in physical disruptions to energy flows or damage equipment. The CyOTE program aims to promote national security by securing critical energy sector assets through the voluntary sharing of cybersecurity information from industrial control systems or other operational technology systems to allow the U.S. government to produce actionable results. Licensing agreements for CyOTE in FY 2021 were concluded with two private sector utilities.DireWolfLos Alamos National Laboratory intends to use INLs DireWolf code for reactor modeling in relation to safety, performance, and design. The efforts will be used to meet DOE or internal LDRD milestones, and the codes will impact the development and safe usage of nuclear reactors. It will also provide collaborative support between LANL and INL.BlueCRABINL is collaborating with Argonne National Laboratory on BlueCRAB (which include both Argonne and INL codes) development and applications for U.S. Nuclear Regulatory Commission in delivering confirmatory licensing analysis capabilities for advanced non-light water reactors. The developed capability will also be applied in multiscale thermal fluids modeling and simulation and safety evaluation of advanced nuclear reactors. The objective of this work scope is to expand the capability of the FAST code in solving the major physics associated with thermal-mechanical fuel performance, and to ensure the code remains state-of-the-practice in terms of software development practices, code modernization and code functionality.10'