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Application
2380.2.01
US-20150012794-A1
US-20150205664-A1
US-20100023800-A1
US-8737141-A1
US-10157004-B2
US10007433A1
US-9159419-B2
US-10114589-A1
US-10134728-A1
US-20200065270-A1
US-10637533-B2
US-9927986-A1
US-8380915-A1
US-9159419-A1
US-9208071-A1
US-20200098728-A1
US-10643676-A1
US-10468073-B2
US-10283200-A1
US-10461965-B1
US-20130279232-A1
US-8892980-B2
US9632727A1
US10558561A1
US20100023800A1
US7230213A1
OPT-9
FLO-2
FLO-5PROV
ONSO3175(B) - Onsemi378
ONSO3305US - Onsemi346
GTS-3DES
FLO-4
US8762658B2
US8533406B2
US9632727B2
KMN-1PROV
PAT-2
PER-8 PROV
PER-9 PROV
INS-4PROV
HAR-1
CES-16
NXT-5PROV NXT-5, 6, 7, 8
IPP-0051-US14 cross roads
FLO-7PROV
IMI-5PROV
IPP-0050-US35 nextremity
VIL-12
OPT-13
TOY-1
US10998041B1
FSP1845
US6559866B2
Placeholder App
PER-10
KBR-1 1400.2.623
PER-13PROV
PAT-3
US20030023453
RMS-1DES
SMG-1DES
FLO-5
US10318495
US10133662B2
PER-11
US20140066758
VIL-17
PER-17
JBR-1
PER-12
US11056880
US11302645
US20210407565
US11081191
PON-1PROV, 2PROV, 3PROV
PER-33
RMT-1PROV
PER-32
PER-34
MCC-1
FLO-10
PER-14
PER-19
PER-22
PER-18
PER-24
TMC-PAT-1
DAR-2
PER-23
TMC-PAT-4
PER-16
PER-4 DIV1
PER-20
PER-21
BRT-PAT-1
TMC-PAT-5
TMC-PAT-6PROV
BRT-PAT-2-PROV
TMC-PAT-7-PROV
FPR-PAT-1-PROV
TMC-PAT-8-PROV
RMT-1
DAR-1PROV
DAR-2PROV
PON-1PROV
PON-2PROV
PON-3PROV
PER-18PROV
TMC-1PROV
TMC-2PROV
PER-13PCT
PER-13
PER-16PROV
PER-14PROV
PER-34PROV
TMC-4PROV
TMC-3
PAS-1PROV
VEH-1
PER-29DES
TEST.001
E2E-TEST.001
TEST-001
TEST-002
TEST-003
TEST-004
ZED006
FSP1011
Application Number
11952091
Matter Number
Paragraph Number
110
Content
Typically the solid-state storage controller(s) 104 communicate data to the solid-state storage 110 over a storage I/O bus 210. In a typical embodiment where the solid-state storage is arranged in banks 214 and each bank 214 includes multiple storage elements 216, 218, 220 accessed in parallel, the storage I/O bus 210 is an array of busses, one for each row of storage elements 216, 218, 220 spanning the banks 214. As used herein, the term “storage I/O bus” may refer to one storage I/O bus 210 or an array of data independent busses 204. In a preferred embodiment, each storage I/O bus 210 accessing a row of storage elements (e.g. 216a, 218a, 220a) may include a logical-to-physical mapping for storage divisions (e.g. erase blocks) accessed in a row of storage elements 216a, 218a, 220a. This mapping allows a logical address mapped to a physical address of a storage division to be remapped to a different storage division if the first storage division fails, partially fails, is inaccessible, or has some other problem. Remapping is explained further in relation to the remapping module 430 of FIGS. 4A and 4B.
Reference Case 1
Reference Case 2
Notes
Added by DJM 3 2021
Raw Data
<w:p><w:pPr><w:pStyle w:val="TPSBody100"/></w:pPr><w:r><w:t xml:space="preserve">Typically the solid-state storage controller(s) </w:t></w:r><w:r><w:t>104</w:t></w:r><w:r><w:t xml:space="preserve"> communicate data to the solid-state storage </w:t></w:r><w:r><w:t>110</w:t></w:r><w:r><w:t xml:space="preserve"> over a storage I/O bus </w:t></w:r><w:r><w:t>210</w:t></w:r><w:r><w:t xml:space="preserve">. In a typical embodiment where the solid-state storage is arranged in banks </w:t></w:r><w:r><w:t>214</w:t></w:r><w:r><w:t xml:space="preserve"> and each bank </w:t></w:r><w:r><w:t>214</w:t></w:r><w:r><w:t xml:space="preserve"> includes multiple storage elements </w:t></w:r><w:r><w:t>216</w:t></w:r><w:r><w:t xml:space="preserve">, </w:t></w:r><w:r><w:t>218</w:t></w:r><w:r><w:t xml:space="preserve">, </w:t></w:r><w:r><w:t>220</w:t></w:r><w:r><w:t xml:space="preserve"> accessed in parallel, the storage I/O bus </w:t></w:r><w:r><w:t>210</w:t></w:r><w:r><w:t xml:space="preserve"> is an array of busses, one for each row of storage elements </w:t></w:r><w:r><w:t>216</w:t></w:r><w:r><w:t xml:space="preserve">, </w:t></w:r><w:r><w:t>218</w:t></w:r><w:r><w:t xml:space="preserve">, </w:t></w:r><w:r><w:t>220</w:t></w:r><w:r><w:t xml:space="preserve"> spanning the banks </w:t></w:r><w:r><w:t>214</w:t></w:r><w:r><w:t xml:space="preserve">. As used herein, the term “storage I/O bus” may refer to one storage I/O bus </w:t></w:r><w:r><w:t>210</w:t></w:r><w:r><w:t xml:space="preserve"> or an array of data independent busses </w:t></w:r><w:r><w:t>204</w:t></w:r><w:r><w:t xml:space="preserve">. In a preferred embodiment, each storage I/O bus </w:t></w:r><w:r><w:t>210</w:t></w:r><w:r><w:t xml:space="preserve"> accessing a row of storage elements (e.g. </w:t></w:r><w:r><w:t>216</w:t></w:r><w:r><w:t>a</w:t></w:r><w:r><w:t xml:space="preserve">, </w:t></w:r><w:r><w:t>218</w:t></w:r><w:r><w:t>a</w:t></w:r><w:r><w:t xml:space="preserve">, </w:t></w:r><w:r><w:t>220</w:t></w:r><w:r><w:t>a</w:t></w:r><w:r><w:t xml:space="preserve">) may include a logical-to-physical mapping for storage divisions (e.g. erase blocks) accessed in a row of storage elements </w:t></w:r><w:r><w:t>216</w:t></w:r><w:r><w:t>a</w:t></w:r><w:r><w:t xml:space="preserve">, </w:t></w:r><w:r><w:t>218</w:t></w:r><w:r><w:t>a</w:t></w:r><w:r><w:t xml:space="preserve">, </w:t></w:r><w:r><w:t>220</w:t></w:r><w:r><w:t>a</w:t></w:r><w:r><w:t xml:space="preserve">. This mapping allows a logical address mapped to a physical address of a storage division to be remapped to a different storage division if the first storage division fails, partially fails, is inaccessible, or has some other problem. Remapping is explained further in relation to the remapping module </w:t></w:r><w:r><w:t>430</w:t></w:r><w:r><w:t xml:space="preserve"> of </w:t></w:r><w:r><w:t>FIGS. 4A and 4B</w:t></w:r><w:r><w:t>.</w:t></w:r></w:p>
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