6,903,483 research outputs found
Automating the IEEE std. 1500 compliance verification for embedded cores
Full text linkThe IEEE 1500 standard for embedded core testing proposes a very effective solution for testing modern system-on-chip (SoC). It proposes a flexible hardware test wrapper architecture, together with a core test language (CTL) used to describe the implemented wrapper functionalities. Already several IP providers have announced compliance in both existing and future design blocks. In this paper we address the challenge of guaranteeing the compliance of a wrapper architecture and its CTL description to the IEEE std. 1500. This is a mandatory step to fully trust the wrapper functionalities in applying the test sequences to the core. The proposed solution aims at implementing a verification framework allowing core providers and/or integrators to automatically verify the compliancy of their products (sold or purchased) to the standar
IEEE transactions on energy conversion.
No full textTen dele voortzetting van: IEEE transactions on power apparatus and system
SEPARATING SOURCES FROM SEQUENTIALLY ACQUIRED MIXTURES OF HEART SIGNALS
No full text© 2011 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works
PESC99 record : 30th Annual IEEE Power Electronics Specialists Conference /
No full text"30th IEEE Power Eelctronics Specialists Conference [was held] in Charleston ..."--Page iii"Formerly Power Conditioning Specialists Conference 1970-71, Power Processing and Electronic Specialists Conference 1972.""IEEE Catalog Number 99CH36321 (softbound); 99CB36321 (casebound); 99CH36321C (CD-ROM)"--Title page versoIncludes bibliographical references and author indexes
IEEE transactions on geoscience and remote sensing.
No full textVoortzetting van: IEEE transactions on geoscience electronics [ISSN 0018-9413
Mitigating interference in IEEE 802.15.4 network with dynamic energy detection
No full textThe extensive utilization of wireless networks requires research in the field of mitigating wireless interference to be urgent and necessary. As the standard designed for low data rate and low cost wireless personal area network, the IEEE 802.15.4 standard is widely employed to construct wireless connectivity among the inexpensive devices. However, the characteristics of low transmission power and narrow bandwidth make the IEEE 802.15.4 system vulnerable to wireless interference. The interference varies in time, frequency and is not able to be recognized since the modulation schemes are usually different. This paper proposes an interference mitigation strategy for IEEE 802.15.4 system to maintain communications during times of interference by adjusting the transmission parameters. The adjustment is made according to the energy detection on the relevant radio frequencies that is used to determine the pattern of idle slots in the interfering signals. This enables the IEEE 802.15.4 system to commence communications within the detected idle slots and thus the communication links are possible to be maintained even under serious interference circumstance. © 2012 IEEE
Keynote Speaker 1 - IEEE: World and Latvia Dimensions
No full textIEEE is the world's largest professional association with 130 years long history, uniting engineers and scientists to foster technological innovation and excellence for the benefit of humanity. It has about 430,000 members in about 160 countries, more than 80,000 of them are students. IEEE and its members inspire a global community through IEEE's highly cited publications, conferences, technology standards, and professional and educational activities.
The welcome speech will give a general overview of the IEEE, how it is organized both in geographic and technical aspects (based on these members' living place and fields of interests). With some quick facts about IEEE, the important role that IEEE plays in its designated fields of interests (i.e., all technical fields rooted in electrical and computer sciences, engineering and related disciplines) will become apparent. After the general introduction to IEEE, we will continue with IEEE Region 8 (i.e., Europe, Middle East, and Africa) activities, with the focus on IEEE Latvia Section, which is one of the Regions' 56 Sections. We will see how the Region and the Section are organized and how many volunteers work to support the members and the geographic units on the local level.
The rough content of the speech will be as follows: (i) IEEE in general: history, mission, vision, organization; quick facts, membership trends. (ii) A closer look at Region 8: history, mission, vision; membership, structure; Region 8 Committee, organization. (iii) Quick facts about IEEE Latvia Section. (iv) Selected activities in Region 8 and Latvia Section
IEEE Standard 1500 Compliance Verification for Embedded Cores
Full text linkCore-based design and reuse are the two key elements for an efficient system-on-chip (SoC) development. Unfortunately, they also introduce new challenges in SoC testing, such as core test reuse and the need of a common test infrastructure working with cores originating from different vendors. The IEEE 1500 Standard for Embedded Core Testing addresses these issues by proposing a flexible hardware test wrapper architecture for embedded cores, together with a core test language (CTL) used to describe the implemented wrapper functionalities. Several intellectual property providers have already announced IEEE Standard 1500 compliance in both existing and future design blocks. In this paper, we address the problem of guaranteeing the compliance of a wrapper architecture and its CTL description to the IEEE Standard 1500. This step is mandatory to fully trust the wrapper functionalities in applying the test sequences to the core. We present a systematic methodology to build a verification framework for IEEE Standard 1500 compliant cores, allowing core providers and/or integrators to verify the compliance of their products (sold or purchased) to the standar
PESC2001 : 2001 IEEE 32nd Annual Power Electronics Specialists Conference : conference proceedings ; Vancouver, Canada, June 17-21, 2001 /
No full text"IEEE Catalog Number 01CH37230.Includes bibliographical references and author indexes
PESC'02 : 2002 IEEE 33rd Annual Power Electronics Specialists Conference : conference proceedings : Cairns, Queensland, Australia, June 23-27, 2002 /
No full text"IEEE Catalog Number 02CH37289"--Title page versoIncludes bibliographical references and author indexes
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