From WikiChip
Difference between revisions of "nxp/qoriq"
< nxp

(Overview)
Line 43: Line 43:
 
== Overview ==
 
== Overview ==
 
Introduced in 2008 by [[Freescale]] as a successor to the {{freescale|PowerQUICC}} family, then one of industry's most popular communications processors. Like the PowerQUICC brand, QorIQ spanned the entire range of products from low-power and low-cost to large multi-core designs. Original designs were based on the [[POWER]] architecture. In 2012 Freescale announced the Layerscape series that adopts the [[ARM]] architecture which Freescale/NXP has been using since.
 
Introduced in 2008 by [[Freescale]] as a successor to the {{freescale|PowerQUICC}} family, then one of industry's most popular communications processors. Like the PowerQUICC brand, QorIQ spanned the entire range of products from low-power and low-cost to large multi-core designs. Original designs were based on the [[POWER]] architecture. In 2012 Freescale announced the Layerscape series that adopts the [[ARM]] architecture which Freescale/NXP has been using since.
 +
 +
=== Identification ===
 +
Only applies to original QorIQ P & T series:
 +
{{chip identification
 +
| parts    = 6
 +
| ex 1      = QorIQ
 +
| ex 2      = &nbsp;&nbsp;
 +
| ex 3      = P
 +
| ex 4      = 4
 +
| ex 5      = 08
 +
| ex 6      = 0
 +
| ex 2 1    = QorIQ
 +
| ex 2 2    = &nbsp;&nbsp;
 +
| ex 2 3    = P
 +
| ex 2 4    = 1
 +
| ex 2 5    = 01
 +
| ex 2 6    = 3
 +
| desc 1    = '''Brand Name''' <br><table><tr><td style="width: 50px;">'''QorIQ'''</td><td></td></tr></table>
 +
| desc 2    =
 +
| desc 3    = '''[[Technology Node]]'''<br><table><tr><td style="width: 50px;">'''P'''</td><td>[[45 nm process]]</td></tr><tr><td>'''T'''</td><td>[[28 nm process]]</td></tr></table>
 +
| desc 4    = '''Platform Level'''
 +
| desc 5    = '''[[Core Count]]'''<br><table><tr><td style="width: 50px;">'''01'''</td><td>[[single-core]]</td></tr><tr><td>'''02'''</td><td>[[dual-core]]</td></tr><tr><td>'''04'''</td><td>[[quad-core]]</td></tr><tr><td>'''08'''</td><td>[[octa-core]]</td></tr></table>
 +
| desc 6    = '''Iteration/Version'''
 +
}}
  
 
== Series ==
 
== Series ==

Revision as of 03:36, 22 October 2017

QorIQ
Developer Freescale, NXP
Manufacturer TSMC
Type System on Chips
Introduction June 16, 2008 (announced)
June 16, 2008 (launch)
Architecture POWER & ARM Communication SoC
Word size 32 bit
4 octets
8 nibbles
, 64 bit
8 octets
16 nibbles
Process 45 nm
0.045 μm
4.5e-5 mm
, 32 nm
0.032 μm
3.2e-5 mm
, 20 nm
0.02 μm
2.0e-5 mm
, 16 nm
0.016 μm
1.6e-5 mm
Technology CMOS
Clock 533 MHz-2,000 MHz
Succession
PowerQUICC

QorIQ (pronounced "Core IQ") is a family of ARM and POWER embedded and networking microprocessors designed and sold by NXP (formerly Freescale) since 2008 as a successor to the PowerQUICC family.

Overview

Introduced in 2008 by Freescale as a successor to the PowerQUICC family, then one of industry's most popular communications processors. Like the PowerQUICC brand, QorIQ spanned the entire range of products from low-power and low-cost to large multi-core designs. Original designs were based on the POWER architecture. In 2012 Freescale announced the Layerscape series that adopts the ARM architecture which Freescale/NXP has been using since.

Identification

Only applies to original QorIQ P & T series:

Identification
QorIQ  P4080 
QorIQ  P1013 
      Iteration/Version
     Core Count
01single-core
02dual-core
04quad-core
08octa-core
    Platform Level
   Technology Node
P45 nm process
T28 nm process
  
 Brand Name
QorIQ

Series

New text document.svg This section is empty; you can help add the missing info by editing this page.

See also

Facts about "QorIQ - NXP"
designerFreescale + and NXP +
first announcedJune 16, 2008 +
first launchedJune 16, 2008 +
full page namenxp/qoriq +
instance ofsystem on a chip family +
main designerFreescale +
manufacturerTSMC +
nameQorIQ +
process45 nm (0.045 μm, 4.5e-5 mm) +, 32 nm (0.032 μm, 3.2e-5 mm) +, 20 nm (0.02 μm, 2.0e-5 mm) + and 16 nm (0.016 μm, 1.6e-5 mm) +
technologyCMOS +
word size32 bit (4 octets, 8 nibbles) + and 64 bit (8 octets, 16 nibbles) +