This course aims to explain the architecture of the NXP T2080 and T2081 SoC to enable participants to efficiently design a board and develop or adapt boot and I/O drivers. Attendees will get a detailed understanding of the internal architecture, especially the various paths between CPU, memory and peripherals. They will study the complex I/O peripherals including the communication controllers.
- Experience with a 32-bit processor or DSP is mandatory
- The e6500 CPU is covered by a separate course entitled NXP_E6500
Duration & Attendance
- From 5 to 6 days
- Min/max number of participants: 3-15
Engineers and technicians who develop boards and software based on T2080/T2081.
|Day 1||Day 2||Day 3||Day 4||Day 5|
|OVERVIEW (1 hour)||HARDWARE IMPLEMENTATION (2 hours)||PCIE BRIDGE (2 hours)||USB CONTROLLERS (1 hour)||DPAA OVERVIEW (1 hour)|
|INTERCONNECT (2 hour)||CLOCKING AND RESET (1 hour)||SRIO BRIDGE (N/A in T2081) (2 hours)||PROGRAMMABLE INTERRUPT CONTROLLER (1 hour)||ETHERNET MACS (1 hour)|
|PERIPHERAL ACCESS MANAGEMENT UNIT (PAMU) (2 hour)||TRUST ARCHITECTURE (1 hour)||ENHANCED SECURE DIGITAL HOST CONTROLLER (1 hour)||SECURITY ENGINE (3 hours)||QUEUE MANAGER (3 hours)|
|CORENET PLATFORM CACHE (2 hour)||DDR3 CONTROLLER (2 hours)||SATA HOST CONTROLLER (1 hour)||LOW SPEED SERIAL INTERFACES (1 hour)||BUFFER MANAGER (2 hours)|
|INTEGRATED FLASH CONTROLLER (1 hour)||DMA CONTROLLER (1 hour)||PERFORMANCE MONITOR AND DEBUG FEATURES (1 hour)|
The detailed course program is available upon request. For on-site training, we can provide a customized program specifically tailored for your audience, needs, and schedule. Contact us to discuss this option.
Teaching Methods & Tools
Evaluation & Certification
Complementary Products & Services
CPU Software Package (CSP) for the e6500: implements exceptions, L1 and L2 cache and MMU paging
SoC Software Package (SSP) for the T2080/T2081: implements drivers for interrupt controller, DMA, memory controllers, Ethernet. This CSP/SSP is an ideal starting point for developing proprietary RTOS or bare-metal applications.
Optimized FFT: software implementation of a fixed point/floating point FFT using the Altivec SIMD instruction set