Freescale Microcontroller SPC564L70L3 Flash Binary Copying means the embedded firmware inside MCU SPC564L70L3 flash memory will be extracted after unlock microprocessor spc564l70l3 secured system over its memory system;
The advanced and cost- efficient host processor core of the SPC56XL70 automotive controller family complies with the Power Architecture embedded category. It operates at speeds as high as 120 MHz and offers high-performance processing optimized for low power consumption.
It capitalizes on the available development infrastructure of current Power Architecture devices and is supported with software drivers, operating systems and configuration code to assist with users’ implementations in the process of breaking spc56el70l3 microprocessor flash memory.
The e200z4d Power Architecture® core provides the following features:
- 2 independent execution units, both supporting fixed-point and floating-point operations
- Dual issue 32-bit Power Architecture technology compliant
- 5-stage pipeline (IF, DEC, EX1, EX2, WB)
- In-order execution and instruction retirement
- Full support for Power Architecture instruction set and Variable Length Encoding (VLE)
- Mix of classic 32-bit and 16-bit instruction allowed
- Optimization of code size possible
- Thirty-two 64-bit general purpose registers (GPRs)
- Harvard bus (32-bit address, 64-bit data)
- I-Bus interface capable of one outstanding transaction plus one piped with no wait- on-data return
- D-Bus interface capable of two transactions outstanding to fill AHB pipe
- I-cache and I-cache controller
- 4 KB, 256-bit cache line (programmable for 2- or 4-way)
- No data cache
- 16-entry MMU
- 8-entry branch table buffer
- Branch look-ahead instruction buffer to accelerate branching
- Dedicated branch address calculator
- 3 cycles worst case for missed branch
- Load/store unit
- Fully pipelined
- Single-cycle load latency
- Big- and little-endian modes supported
- Misaligned access support
- Single stall cycle on load to use
- Single-cycle throughput (2-cycle latency) integer 32 × 32 multiplication
- 4 – 14 cycles integer 32 × 32 division (average division on various benchmark of nine cycles)
- Single precision floating-point unit
- 1 cycle throughput (2-cycle latency) floating-point 32 × 32 multiplication
- Target 9 cycles (worst case acceptable is 12 cycles) throughput floating-point 32 × 32 division
- Special square root and min/max function implemented
- Signal processing support: APU-SPE 1.1
- Support for vectorized mode: as many as two floating-point instructions per clock
- Vectored interrupt support
- Dual issue 32-bit Power Architecture technology compliant
Reservation instruction to support read-modify-write constructs