Difference between revisions of "IMX6"
From IGEP - ISEE Wiki
(→Features) |
(→Features) |
||
Line 19: | Line 19: | ||
| style="border-color: #000000;"| | | style="border-color: #000000;"| | ||
* '''ARM CORTEX-A9''' | * '''ARM CORTEX-A9''' | ||
− | ** 1 Core ( | + | ** 1 Core (<u>Solo</u>) up to 1 Ghz |
− | ** 2 Core ( | + | ** 2 Core (<u>Dual</u> <u>Lite</u>) up to 1 Ghz |
− | ** 2 Core ( | + | ** 2 Core <u>(Dual)</u> up to 1.2 Ghz |
− | ** 4 Core ( | + | ** 4 Core <u>(Quad)</u> up to 1.2 Ghz |
* '''L2 cache''' | * '''L2 cache''' | ||
− | ** 512 KB ( | + | ** 512 KB <u>(Solo</u>, <u>Dual Lite)</u> |
− | ** 1 MB ( | + | ** 1 MB <u>(Dual</u>, <u>Quad)</u> |
* '''32 KB instruction and data caches''' | * '''32 KB instruction and data caches''' | ||
* '''NEON SIMD media accelerator''' | * '''NEON SIMD media accelerator''' | ||
Line 59: | Line 59: | ||
====='''Memory'''===== | ====='''Memory'''===== | ||
| style="border-color: #000000;"|<div id="panel3" class="panel-collapse collapse in" role="tabpanel" aria-labelledby="headingOne" aria-expanded="true"><div class="toggle_container"> | | style="border-color: #000000;"|<div id="panel3" class="panel-collapse collapse in" role="tabpanel" aria-labelledby="headingOne" aria-expanded="true"><div class="toggle_container"> | ||
− | * '''DDR''' ( | + | * '''DDR''' <u>(Solo)</u><br /> |
** 32 bit LP-DDR3/LV-DDR3 | ** 32 bit LP-DDR3/LV-DDR3 | ||
− | * '''DDR''' ( | + | * '''DDR''' <u>(Dual</u> <u>Lite</u>, <u>Dual</u>, <u>Quad)</u> |
** 2x32 LP-DDR2, 1x64 DDR3 / LV-DDR3 | ** 2x32 LP-DDR2, 1x64 DDR3 / LV-DDR3 | ||
* '''NAND''' | * '''NAND''' | ||
Line 72: | Line 72: | ||
====='''Connectivity'''===== | ====='''Connectivity'''===== | ||
| style="border-color: #000000;"|<div id="panel4" class="panel-collapse collapse in" role="tabpanel" aria-labelledby="headingOne" aria-expanded="true"><div class="toggle_container"> | | style="border-color: #000000;"|<div id="panel4" class="panel-collapse collapse in" role="tabpanel" aria-labelledby="headingOne" aria-expanded="true"><div class="toggle_container"> | ||
− | * ''' | + | * '''Automotive''' (<u>Solo</u>) |
** FlexCAN | ** FlexCAN | ||
** MLB | ** MLB | ||
Line 93: | Line 93: | ||
====='''Display'''===== | ====='''Display'''===== | ||
| style="border-color: #000000;"|<div id="panel5" class="panel-collapse collapse in" role="tabpanel" aria-labelledby="headingOne" aria-expanded="true"><div class="toggle_container"> | | style="border-color: #000000;"|<div id="panel5" class="panel-collapse collapse in" role="tabpanel" aria-labelledby="headingOne" aria-expanded="true"><div class="toggle_container"> | ||
− | * '''2 x WXGA (1366x786)''' ( | + | * '''2 x WXGA (1366x786)''' <u>(Solo</u>,<u>Dual Lite)</u> |
− | * '''2 x 4XGA (2048x1536) or 2 x [1080p + WXGA (1280x720)] (Dual, Quad) | + | * '''2 x 4XGA (2048x1536) or 2 x [1080p + WXGA (1280x720)]''' <u>(Dual</u>, <u>Quad)</u> |
− | * '''EPDC, LVDS, Parallel, MIPI-DS (Solo, Dual Lite, Dual) ''' | + | * '''EPDC, LVDS, Parallel, MIPI-DS''' <u>(Solo</u>, <u>Dual Lite</u>, <u>Dual)</u>''' ''' |
</div> | </div> |
Revision as of 09:16, 3 April 2018
Contents
Overview:
The i.MX 6 series of applications processors combines scalable platforms with broad levels of integration and power-efficient processing capabilities particularly suited to multimedia applications.
- Enhanced capabilities of high-tier portable applications by fulfilling MIPS needs of operations systems and games
- Multilevel memory system
- Smart speed technology that enables the designer to deliver a feature-rich product, requiring levels of power far lower than industry expectations
- Dynamic voltage and frequency scaling
- Powerful graphics acceleration
- Interface flexibility
- Integrated power management throughout the device
- Advanced hardware-enabled security
Features
CPU |
|
Multimedia |
|
Memory |
|
Connectivity |
|
Display |
|
Advanced Power Management |
|
Security supporting |
|
Principal characteristics & differences
Processor |
EPDC (e-Ink)
|
USB
Controller
|
---|---|---|
i.MX6 SOLO | √ | 2 / 1 |
i.MX6 DUAL LITE |
√ | 2 / 2 |
i.MX6 DUAL |
⊗ | 2 / 2 |
i.MX6 QUAD |
⊗ | 2 / 2 |
i.MX6 Solo
Excluding the main characteristics they share a lot of specifications.
The i.MX 6Solo/6DualLite processors are specifically useful for applications such as:
- Graphics rendering for Human Machine Interfaces (HMI)
- High-performance speech processing with large databases
- Video processing and display
- Portable medical
- Home energy management systems
- Industrial control and automation
i.MX6 Dual Lite
Excluding the main characteristics they share a lot of specifications.
The i.MX 6Solo/6DualLite processors are specifically useful for applications such as:
- Graphics rendering for Human Machine Interfaces (HMI)
- High-performance speech processing with large databases
- Video processing and display
- Portable medical
- Home energy management systems
- Industrial control and automation
i.MX6 Dual
Excluding the main characteristics they share a lot of specifications
The i.MX 6Dual/6Quad processors are specifically useful for applications such as the following:
- Netbooks (web tablets)
- Nettops (Internet desktop devices)
- High-end mobile Internet devices (MID)
- High-end PDAsHigh-end portable media players (PMP) with HD video capability
- Gaming consoles
- Portable navigation devices (PND)
i.MX6 Quad
Excluding the main characteristics they share a lot of specifications
The i.MX 6Dual/6Quad processors are specifically useful for applications such as the following:
- Netbooks (web tablets)
- Nettops (Internet desktop devices)
- High-end mobile Internet devices (MID)
- High-end PDAsHigh-end portable media players (PMP) with HD video capability
- Gaming consoles
- Portable navigation devices (PND)