D
Diego Melpignano
Researcher at STMicroelectronics
Publications - 45
Citations - 1723
Diego Melpignano is an academic researcher from STMicroelectronics. The author has contributed to research in topics: Wireless & Network packet. The author has an hindex of 17, co-authored 45 publications receiving 1710 citations. Previous affiliations of Diego Melpignano include Philips.
Papers
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Proceedings ArticleDOI
Platform 2012, a many-core computing accelerator for embedded SoCs: performance evaluation of visual analytics applications
Diego Melpignano,Luca Benini,Eric Flamand,Bruno Jego,Thierry Lepley,Germain Haugou,Fabien Clermidy,Denis Dutoit +7 more
TL;DR: P2012 is an area- and power-efficient many-core computing accelerator based on multiple globally asynchronous, locally synchronous processor clusters, and a dedicated version of the OpenCV vision library is provided in the P2012 SW Development Kit to enable visual analytics acceleration.
Proceedings ArticleDOI
P2012: building an ecosystem for a scalable, modular and high-efficiency embedded computing accelerator
TL;DR: P2012 is an area- and power-efficient many-core computing fabric based on multiple globally asynchronous, locally synchronous (GALS) clusters supporting aggressive fine-grained power, reliability and variability management.
Patent
Interface selection from multiple networks
Diego Melpignano,David Siorpaes +1 more
TL;DR: In this paper, an arrangement is disclosed that enables a mobile device to manage multiple network interfaces in order to be substantially always reachable on the Internet. But the authors do not specify how the mobile device manages the network interfaces.
Patent
Wireless technology co-existence
TL;DR: In this article, a multi-standard wireless driver that includes a Multi-standard Wireless Adaptation Layer (M-WAL) with the capability to efficiently handle concurrent operation of multiple wireless transceivers while reducing mutual interference and matching application traffic requirements.
Patent
Radio communication arrangements
TL;DR: In this paper, the first and second communications devices were adapted to enter into a page scan state in which it is receptive to transmissions on a particular page scan frequency fps and the second device AP was adapted to transmit a page train A which is centered around an estimate of said page scan rate fps.