LEADER 01036aam a2200241 i 4500 001 991002137809707536 008 130828s2012 it b 001 0 ita 020 $a9788815240675 035 $ab14127192-39ule_inst 040 $aDip.to di Storia, Società e Studi sull'Uomo - Sez. Studi Storici$bita 082 04$a338.768114 100 1 $aCastagnoli, Adriana$0280474 245 10$aEssere impresa nel mondo :$bl'espansione internazionale dell'Olivetti dalle origini agli anni Sessanta /$cAdriana Castagnoli 260 $aBologna :$bIl mulino,$cc2012 300 $a267 p. ;$c22 cm. 440 0$aStudi e ricerche dell'Associazione Archivio storico Olivetti 650 4$aOlivetti & C.$xInternazionalizzazione$y1908-1964 907 $a.b14127192$b02-04-14$c28-08-13 912 $a991002137809707536 945 $aLE023 338.768 CAS 1 1$g1$i2023000163726$lle023$op$pE20.00$q-$rl$s- $t0$u0$v0$w0$x0$y.i15551131$z08-11-13 996 $aEssere impresa nel mondo$969104 997 $aUNISALENTO 998 $ale023$b30-10-13$cm$da $e-$fita$git $h0$i0 LEADER 02009nas 2200625 c 450 001 996206934703316 005 20171201161000.0 035 $a(CKB)1000000000531885 035 $a(DE-599)ZDB2106615-2 035 $a(OCoLC)405883007 035 $a(DE-101)024530107 035 $a(EXLCZ)991000000000531885 100 $a20030409a19989999 |y | 101 0 $aeng 135 $aur||||||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aShionogi annual report 210 31$aO?saka$cKenkyu?sho$d1998- 215 $aOnline-Ressource 300 $aGesehen am 13.01.14 606 $3(DE-588)4007842-5$3https://d-nb.info/gnd/4007842-5$3(DE-101)040078426$aBotanik$2gnd 606 $3(DE-588)4009816-3$3https://d-nb.info/gnd/4009816-3$3(DE-101)040098168$aChemie$2gnd 606 $3(DE-588)4316357-9$3https://d-nb.info/gnd/4316357-9$3(DE-101)043163572$aMikrobiologie$2gnd 606 $3(DE-588)4045705-9$3https://d-nb.info/gnd/4045705-9$3(DE-101)040457052$aPharmazie$2gnd 606 $3(DE-588)4006777-4$3https://d-nb.info/gnd/4006777-4$3(DE-101)040067777$aBiochemie$2gnd 608 $aZeitschrift$2gnd-content 608 $aForschungsbericht$2gnd-content 608 $aForschungsbericht$2gnd 608 $aOnline-Publikation$2gnd 608 $aZeitschrift$2gnd 608 $aOnline-Publikation$2gnd 608 $aZeitschrift$2gnd 608 $aOnline-Publikation$2gnd 608 $aZeitschrift$2gnd 608 $aOnline-Publikation$2gnd 608 $aZeitschrift$2gnd 608 $aOnline-Publikation$2gnd 608 $aZeitschrift$2gnd 608 $aOnline-Publikation$2gnd 615 7$aBotanik 615 7$aChemie 615 7$aMikrobiologie 615 7$aPharmazie 615 7$aBiochemie 676 $a540 676 $a610 801 0$b4002 801 1$bDE-101 801 2$b9999 906 $aJOURNAL 912 $a996206934703316 996 $aShionogi annual report$92049516 997 $aUNISA LEADER 04156nam 2200769z- 450 001 9910557566603321 005 20220111 035 $a(CKB)5400000000043961 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/76881 035 $a(oapen)doab76881 035 $a(EXLCZ)995400000000043961 100 $a20202201d2021 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 00$aSemiconductor Memory Devices for Hardware-Driven Neuromorphic Systems 210 $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021 215 $a1 online resource (81 p.) 311 08$a3-0365-1734-0 311 08$a3-0365-1733-2 330 $aThis book aims to convey the most recent progress in hardware-driven neuromorphic systems based on semiconductor memory technologies. Machine learning systems and various types of artificial neural networks to realize the learning process have mainly focused on software technologies. Tremendous advances have been made, particularly in the area of data inference and recognition, in which humans have great superiority compared to conventional computers. In order to more effectively mimic our way of thinking in a further hardware sense, more synapse-like components in terms of integration density, completeness in realizing biological synaptic behaviors, and most importantly, energy-efficient operation capability, should be prepared. For higher resemblance with the biological nervous system, future developments ought to take power consumption into account and foster revolutions at the device level, which can be realized by memory technologies. This book consists of seven articles in which most recent research findings on neuromorphic systems are reported in the highlights of various memory devices and architectures. Synaptic devices and their behaviors, many-core neuromorphic platforms in close relation with memory, novel materials enabling the low-power synaptic operations based on memory devices are studied, along with evaluations and applications. Some of them can be practically realized due to high Si processing and structure compatibility with contemporary semiconductor memory technologies in production, which provides perspectives of neuromorphic chips for mass production. 606 $aEnergy industries & utilities$2bicssc 606 $aTechnology: general issues$2bicssc 610 $a3-D neuromorphic system 610 $a3-D stacked synapse array 610 $aa-IGZO memristor 610 $abenchmarking neuromorphic HW 610 $abimodal distribution of effective Schottky barrier height 610 $aBoyer-Moore 610 $acharge-trap flash synapse 610 $aDNA matching algorithm 610 $aenergy consumption 610 $aflexible electronics 610 $agradual and abrupt modulation 610 $ahardware-based neuromorphic system 610 $aionized oxygen vacancy 610 $aleaky integrate-and-fire neuron 610 $aMPI for neuromorphic HW 610 $aneural network 610 $aneuromorphic engineering 610 $aneuromorphic platform 610 $aneuromorphic system 610 $anon filamentary resistive switching 610 $aon-chip learning 610 $aorganic field-effect transistors 610 $aoverlapping pattern issue 610 $apattern recognition 610 $aSchottky barrier tunneling 610 $ashort-term plasticity 610 $aSi processing compatibility 610 $aspiking neural network 610 $aspinMPI 610 $aspiNNaker 610 $asynaptic device 610 $asynaptic devices 610 $aTCAD device simulation 610 $avanadium dioxide 615 7$aEnergy industries & utilities 615 7$aTechnology: general issues 700 $aCho$b Seongjae$4edt$01310439 702 $aCho$b Seongjae$4oth 906 $aBOOK 912 $a9910557566603321 996 $aSemiconductor Memory Devices for Hardware-Driven Neuromorphic Systems$93029819 997 $aUNINA