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ADSP-BF531 Datasheet(PDF) 5 Page - Analog Devices |
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ADSP-BF531 Datasheet(HTML) 5 Page - Analog Devices |
5 / 60 page ADSP-BF531/ADSP-BF532 Rev. D | Page 5 of 60 | August 2006 population count, modulo 232 multiply, divide primitives, satu- ration and rounding, and sign/exponent detection. The set of video instructions includes byte alignment and packing opera- tions, 16-bit and 8-bit adds with clipping, 8-bit average operations, and 8-bit subtract/absolute value/accumulate (SAA) operations. Also provided are the compare/select and vector search instructions. For certain instructions, two 16-bit ALU operations can be per- formed simultaneously on register pairs (a 16-bit high half and 16-bit low half of a compute register). By also using the second ALU, quad 16-bit operations are possible. The 40-bit shifter can perform shifts and rotates and is used to support normalization, field extract, and field deposit instructions. The program sequencer controls the flow of instruction execu- tion, including instruction alignment and decoding. For program flow control, the sequencer supports PC relative and indirect conditional jumps (with static branch prediction), and subroutine calls. Hardware is provided to support zero-over- head looping. The architecture is fully interlocked, meaning that the programmer need not manage the pipeline when executing instructions with data dependencies. The address arithmetic unit provides two addresses for simulta- neous dual fetches from memory. It contains a multiported register file consisting of four sets of 32-bit index, modify, length, and base registers (for circular buffering), and eight additional 32-bit pointer registers (for C-style indexed stack manipulation). Blackfin processors support a modified Harvard architecture in combination with a hierarchical memory structure. Level 1 (L1) memories are those that typically operate at the full processor speed with little or no latency. At the L1 level, the instruction memory holds instructions only. The two data memories hold data, and a dedicated scratchpad data memory stores stack and local variable information. In addition, multiple L1 memory blocks are provided, offering a configurable mix of SRAM and cache. The memory manage- ment unit (MMU) provides memory protection for individual tasks that may be operating on the core and can protect system registers from unintended access. The architecture provides three modes of operation: user mode, supervisor mode, and emulation mode. User mode has restricted access to certain system resources, thus providing a protected software environment, while supervisor mode has unrestricted access to the system and core resources. The Blackfin processor instruction set has been optimized so that 16-bit opcodes represent the most frequently used instruc- tions, resulting in excellent compiled code density. Complex DSP instructions are encoded into 32-bit opcodes, representing fully featured multifunction instructions. Blackfin processors support a limited multi-issue capability, where a 32-bit instruc- tion can be issued in parallel with two 16-bit instructions, allowing the programmer to use many of the core resources in a single instruction cycle. The Blackfin processor assembly language uses an algebraic syn- tax for ease of coding and readability. The architecture has been optimized for use in conjunction with the C/C++ compiler, resulting in fast and efficient software implementations. MEMORY ARCHITECTURE The ADSP-BF531/ADSP-BF532 processor views memory as a single unified 4G byte address space, using 32-bit addresses. All resources, including internal memory, external memory, and I/O control registers, occupy separate sections of this common address space. The memory portions of this address space are arranged in a hierarchical structure to provide a good cost/per- formance balance of some very fast, low latency on-chip memory as cache or SRAM, and larger, lower cost and perfor- mance off-chip memory systems. See Figure 3 on Page 7, and Figure 4 on Page 7. The L1 memory system is the primary highest performance memory available to the Blackfin processor. The off-chip mem- ory system, accessed through the external bus interface unit (EBIU), provides expansion with SDRAM, flash memory, and SRAM, optionally accessing up to 132M bytes of physical memory. The memory DMA controller provides high bandwidth data- movement capability. It can perform block transfers of code or data between the internal memory and the external memory spaces. Internal (On-Chip) Memory The ADSP-BF531/ADSP-BF532 processor has three blocks of on-chip memory providing high bandwidth access to the core. The first is the L1 instruction memory, consisting of up to 48K bytes SRAM, of which 16K bytes can be configured as a four way set-associative cache. This memory is accessed at full processor speed. The second on-chip memory block is the L1 data memory, con- sisting of one bank of 32K bytes. The memory bank is configurable, offering both cache and SRAM functionality. This memory block is accessed at full processor speed. The third memory block is a 4K byte scratchpad SRAM which runs at the same speed as the L1 memories, but is only accessible as data SRAM and cannot be configured as cache memory. External (Off-Chip) Memory The external bus interface can be used with both asynchronous devices such as SRAM, FLASH, EEPROM, ROM, and I/O devices, and synchronous devices such as SDRAMs. The bus width is always 16 bits. A1 is the least significant address of a 16-bit word. 8-bit peripherals should be addressed as if they were 16-bit devices, where only the lower eight bits of data should be used. The PC133-compliant SDRAM controller can be programmed to interface to up to 128M bytes of SDRAM. The SDRAM con- troller allows one row to be open for each internal SDRAM bank, for up to four internal SDRAM banks, improving overall system performance. |
Similar Part No. - ADSP-BF531_06 |
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Similar Description - ADSP-BF531_06 |
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