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BEGIN:VEVENT
DTSTART;TZID=Europe/Rome:20260420T140000
DTEND;TZID=Europe/Rome:20260420T153000
LOCATION:Room Rigoletto
CREATED:20260421T174602
DTSTAMP:20260421T174602
SUMMARY:ET05 Introduction to Post Quantum Cryptography for Embedded and IoT Systems
URL;VALUE=URI:https://date26date-conference.com/programme#ET05
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DESCRIPTION:Get the latest session information at 
	https://date26date-conference.com/programme#ET05\n\n\nWith the advent and 
	quick improvement of quantum computers, conventional cryptographic systems 
	will become vulnerable in the near future, creating a high risk in 
	security and privacy. For this reason, post quantum cryptographic schemes 
	have been developed which impose new hardware and software requirements to 
	existing and upcoming hardware. While there are several works in the 
	literature focused on post quantum cryptography acceleration in general 
	purpose, high performance systems, the vast majority of computing devices, 
	i.e. embedded, Internet of Things are not covered by them, due to their 
	high area, power or memory cost. In this tutorial, we will focus on the 
	particular case of these devices.\n	\n	The tutorial will start with a 
	high-level introduction to post quantum cryptography, followed by existing 
	works in the general purpose domain. Next we will cover in detail the 
	embedded systems domain, their particular requirements and explain why 
	existing methods are not applicable to them. We will provide specific 
	examples and use cases from various embedded and IoT related domains, such 
	as automotive, aerospace, IoT devices and extremely low power devices like 
	passports and other machine readable travel documents. The examples will 
	include the active standardization activities in various bodies including 
	RISC-V, as well as on-going efforts in research projects, such as the 
	SMARTY (https://www.smarty-project.eu/) and PQC4eMRTD 
	(https://www.pqc4emrtd-project.eu/) EU funded projects.
X-ALT-DESC;FMTTYPE=text/html:<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 3.2//EN"><HTML><HEAD><META 
	NAME="Generator" CONTENT="MS Exchange Server version 
	16.0.17231.20290"><TITLE></TITLE></HEAD><BODY><p>Get the latest session 
	information at <a 
	href="https://date26date-conference.com/programme#ET05">https://date26date-conference.com/programme#ET05</a></p><p>With 
	the advent and quick improvement of quantum computers, conventional 
	cryptographic systems will become vulnerable in the near future, creating 
	a high risk in security and privacy. For this reason, post quantum 
	cryptographic schemes have been developed which impose new hardware and 
	software requirements to existing and upcoming hardware. While there are 
	several works in the literature focused on post quantum cryptography 
	acceleration in general purpose, high performance systems, the vast 
	majority of computing devices, i.e. embedded, Internet of Things are not 
	covered by them, due to their high area, power or memory cost. In this 
	tutorial, we will focus on the particular case of these devices.</p><p>The 
	tutorial will start with a high-level introduction to post quantum 
	cryptography, followed by existing works in the general purpose domain. 
	Next we will cover in detail the embedded systems domain, their particular 
	requirements and explain why existing methods are not applicable to them. 
	We will provide specific examples and use cases from various embedded and 
	IoT related domains, such as automotive, aerospace, IoT devices and 
	extremely low power devices like passports and other machine readable 
	travel documents. The examples will include the active standardization 
	activities in various bodies including RISC-V, as well as on-going efforts 
	in research projects, such as the SMARTY (https://www.smarty-project.eu/) 
	and PQC4eMRTD (https://www.pqc4emrtd-project.eu/) EU funded 
	projects.</p></BODY></HTML>
UID:DATE-ET05-20260420T140000-20260420T153000
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