Datasheet ADSP-SC582, ADSP-SC583, ADSP-SC584, ADSP-SC587, ADSP-SC589, ADSP-21583, ADSP-21584, ADSP-21587 (Analog Devices) - 7

ManufacturerAnalog Devices
DescriptionSHARC+ Dual-Core DSP with Arm Cortex-A5
Pages / Page173 / 7 — ADSP-SC582/SC583/SC584/SC587/SC589/ADSP-21583/21584/21587. DEBUG. FLAGS. …
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ADSP-SC582/SC583/SC584/SC587/SC589/ADSP-21583/21584/21587. DEBUG. FLAGS. CEC. BTB. CONFLICT. TRACE. CACHE. SIMD Core. PM DATA 48

ADSP-SC582/SC583/SC584/SC587/SC589/ADSP-21583/21584/21587 DEBUG FLAGS CEC BTB CONFLICT TRACE CACHE SIMD Core PM DATA 48

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DEBUG FLAGS CEC BTB CONFLICT TRACE BP CACHE SIMD Core PM DATA 48 DMD/PMD 64 11-STAGE PROGRAM SEQUENCER PM ADDRESS 24 DAG1 DAG2 16 × 32 16 × 32 PM ADDRESS 32 SYSTEM DM ADDRESS 32 I/F TO PM DATA 64 IMIF USTAT PX DM DATA 64 PEx DATA PEy SWAP MULTIPLIER SHIFTER ALU DATA DATA ALU SHIFTER MULTIPLIER REGISTER REGISTER Rx Sx 16 × 40-BIT 16 × 40-BIT ASTATx ASTATy MRF MRB MSB MSF 80-BIT 80-BIT 80-BIT 80-BIT STYKx STYKy
Figure 4. SHARC+ SIMD Core Block Diagram
L1 Memory
106.7k words of 48-bit instructions (or 40-bit data), or combi- nations of different word sizes up to 5 Mb. All of the memory Figure 5 shows the ADSP-SC58x/ADSP-2158x memory map. can be accessed as 8-bit, 16-bit, 32-bit, 48-bit, or 64-bit words. Each SHARC+ core has a tightly coupled L1 SRAM of up to Support of a 16-bit floating-point storage format doubles the 5 Mb. Each SHARC+ core can access code and data in a single amount of data that can be stored on chip. cycle from this memory space. The Arm Cortex-A5 core can also access this memory space with multicycle accesses. Conversion between the 32-bit floating-point and 16-bit float- ing-point formats is performed in a single instruction. While In the SHARC+ core private address space, both cores have L1 each memory block can store combinations of code and data, memory. accesses are most efficient when one block stores data using the SHARC+ core memory-mapped register (CMMR) address DM bus for transfers, and the other block stores instructions space is 0x 0000 0000 through 0x 0003 FFFF in normal word and data using the PM bus for transfers. (32-bit). Each block can be configured for different combina- Using the DM and PM buses, with each bus dedicated to a tions of code and data storage. Of the 5 Mb SRAM, up to memory block, assures single-cycle execution with two data 1024 Kb can be configured for data memory (DM), program transfers. In this case, the instruction must be available in the memory (PM), and instruction cache. Each memory block sup- cache. The system configuration is flexible, but a typical config- ports single-cycle, independent accesses by the core processor uration is 512 Kb DM, 128 Kb PM, and 128 Kb of instruction and I/O processor. The memory architecture, in combination cache, with the remaining L1 memory configured as SRAM. with its separate on-chip buses, allows two data transfers from Each addressable memory space outside the L1 memory can be the core and one from the DMA engine in a single cycle. The accessed either directly or via cache. SRAM of the processor can be configured as a maximum of 160k words of 32-bit data, 320k words of 16-bit data, Rev. B | Page 7 of 173 | December 2018 Document Outline System Features Memory Additional Features Table of Contents Revision History General Description ARM Cortex-A5 Processor Generic Interrupt Controller (GIC), PL390 (ADSP-SC58x Only) Generic Interrupt Controller Port0 (GICPORT0) Generic Interrupt Controller Port1 (GICPORT1) L2 Cache Controller, PL310 (ADSP-SC58x Only) SHARC Processor L1 Memory L1 Master and Slave Ports L1 On-Chip Memory Bandwidth Instruction and Data Cache System Event Controller (SEC) Input Core Memory-Mapped Registers (CMMR) SHARC+ Core Architecture SIMD Computational Engine Independent, Parallel Computation Units Core Timer Data Register File Context Switch Universal Registers (USTAT) Data Address Generators With Zero-Overhead Hardware Circular Buffer Support Flexible Instruction Set Architecture (ISA) Variable Instruction Set Architecture (VISA) Single-Cycle Fetch of Instructional Four Operands Core Event Controller (CEC) Instruction Conflict-Cache Branch Target Buffer/Branch Predictor Addressing Spaces Additional Features System Infrastructure System L2 Memory SHARC+ Core L1 Memory in Multiprocessor Space One Time Programmable Memory (OTP) I/O Memory Space System Memory Map System Crossbars (SCBs) Direct Memory Access (DMA) Memory Direct Memory Access (MDMA) Extended Memory DMA Cyclic Redundant C ode (CRC) Protection Event Handling System Event Controller (SEC) Trigger Routing Unit (TRU) Security Features Arm TrustZone Cryptographic Hardware Accelerators System Protection Unit (SPU) System Memory Protection Unit (SMPU) Security Features Disclaimer Safety Features Multiparity Bit Protected SHARC+ Core L1 Memories Error Correcting Codes (ECC) Protected L2 Memories Cyclic Redundant Code (CRC) Protected Memories Signal Watchdogs System Event Controller (SEC) Processor Peripherals Dynamic Memory Controller (DMC) Digital Audio Interface (DAI) Serial Ports (SPORTs) Asynchronous Sample Rate Converter (ASRC) S/PDIF-Compatible Digital Audio Receiver/Transmitter Precision Clock Generators (PCG) Enhanced Parallel Peripheral Interface (EPPI) Universal Asynchronous Receiver/Transmitter (UART) Ports Serial Peripheral Interface (SPI) Ports Link Ports (LP) ADC Control Module (ACM) Interface 3-Phase Pulse Width Modulator (PWM) Units Ethernet Media Access Controller (EMAC) Audio Video Bridging (AVB) Support (10/100/1000 EMAC Only) Precision Time Protocol (PTP) IEEE 1588 Support Controller Area Network (CAN) Timers General-Purpose (GP) Timers (TIMER) Watchdog Timer (WDT) General-Purpose Counters (CNT) PCI Express (PCIe) Housekeeping Analog-to-Digital Converter (HADC) USB 2.0 On the Go (OTG) Dual-Role Device Controller Media Local Bus (Media LB) 2-Wire Controller Interface (TWI) General-Purpose I/O (GPIO) Pin Interrupts Mobile Storage Interface (MSI) System Acceleration FFT/IFFT Accelerator Finite Impulse Response (FIR) Accelerator Infinite Impulse Response (IIR) Accelerator Harmonic Analysis Engine (HAE) Sinus Cardinalis (SINC) Filter Digital Transmission Content Protection (DTCP) System Design Clock Management Reset Control Unit (RCU) Real-Time Clock (RTC) Clock Generation Unit (CGU) System Crystal Oscillator and USB Crystal Oscillator Clock Distribution Unit (CDU) Power-Up Clock Out/External Clock Booting Thermal Monitoring Unit (TMU) Power Supplies Power Management Target Board JTAG Emulator Connector System Debug System Watchpoint Unit (SWU) Debug Access Port (DAP) Development Tools Integrated Development Environments (IDEs) EZ-KIT Lite Evaluation Board EZ-KIT Lite Evaluation Kits Software Add-Ins for CrossCore Embedded Studio Board Support Packages for Evaluation Hardware Middleware Packages Algorithmic Modules Designing an Emulator-Compatible DSP Board (Target) Additional Information Related Signal Chains ADSP-SC58x/ADSP-2158x Detailed Signal Descriptions 349-Ball CSP_BGA Signal Descriptions GPIO Multiplexing for the 349-Ball CSP_BGA Package 529-Ball CSP_BGA Signal Descriptions GPIO Multiplexing for the 529-Ball CSP_BGA Package ADSP-SC58x/ADSP-2158x Designer Quick Reference Specifications Operating Conditions Clock Related Operating Conditions Electrical Characteristics Total Internal Power Dissipation Application Dependent Current Clock Current Current from High Speed Peripheral Operation Data Transmission Current HADC HADC Electrical Characteristics HADC DC Accuracy HADC Timing Specifications TMU TMU Characteristics Absolute Maximum Ratings ESD Caution Timing Specifications Power-Up Reset Timing Clock and Reset Timing Asynchronous Read SMC Read Cycle Timing With Reference to SYS_CLKOUT Asynchronous Flash Read Asynchronous Page Mode Read Asynchronous Write SMC Write Cycle Timing With Reference to SYS_CLKOUT Asynchronous Flash Write All Accesses DDR2 SDRAM Clock and Control Cycle Timing DDR2 SDRAM Read Cycle Timing DDR2 SDRAM Write Cycle Timing Mobile DDR (LPDDR) SDRAM Clock and Control Cycle Timing Mobile DDR SDRAM Read Cycle Timing Mobile DDR SDRAM Write Cycle Timing DDR3 SDRAM Clock and Control Cycle Timing DDR3 SDRAM Read Cycle Timing DDR3 SDRAM Write Cycle Timing Enhanced Parallel Peripheral Interface (EPPI) Timing Link Ports (LP) Serial Ports (SPORT) Sample Rate Converter—Serial Input Port Sample Rate Converter—Serial Output Port SPI Port—Master Timing SPI Port—Slave Timing SPI Port—SPI Ready (SPIx_RDY) Slave Timing SPI Port—Open Drain Mode (ODM) Timing SPI Port—SPIx_RDY Master Timing Precision Clock Generator (PCG) (Direct Pin Routing) General-Purpose I/O Port Timing General-Purpose I/O Timer Cycle Timing DAIx Pin to DAIx Pin Direct Routing (DAI0 Block and DAI1 Block) Up/Down Counter/Rotary Encoder Timing Pulse Width Modulator (PWM) Timing PWM — Medium Precision (MP) Mode Timing PWM — Heightened Precision (HP) Mode Timing ADC Controller Module (ACM) Timing Universal Asynchronous Receiver-Transmitter (UART) Ports—Receive and Transmit Timing Controller Area Network (CAN) Interface Universal Serial Bus (USB) PCI Express (PCIe) 10/100 EMAC Timing (ETH0 and ETH1) 10/100/1000 EMAC Timing (ETH0 Only) Sinus Cardinalis (SINC) Filter Timing Sony/Philips Digital Interface (S/PDIF) Transmitter S/PDIF Transmitter Serial Input Waveforms S/PDIF Transmitter Input Data Timing Oversampling Clock (TxCLK) Switching Characteristics S/PDIF Receiver Internal Digital PLL Mode Media LB (MLB) Mobile Storage Interface (MSI) Controller Timing Program Trace Macrocell (PTM) Timing Debug Interface (JTAG Emulation Port) Timing Output Drive Currents Test Conditions Output Enable Time Measurement Output Disable Time Measurement Capacitive Loading Environmental Conditions ADSP-SC58x/ADSP-2158x 349-Ball BGA Ball Assignments ADSP-SC58x/ADSP-2158x 349-Ball BGA Ball Assignments (Numerical by Ball Number) ADSP-SC58x/ADSP-2158x 349-Ball BGA Ball Assignments (Alphabetical by Pin Name) Configuration of the 349-Ball CSP_BGA ADSP-SC58x/ADSP-2158x 529-Ball BGA Ball Assignments ADSP-SC58x/ADSP-2158x 529-Ball BGA Ball Assignments (Numerical by Ball Number) ADSP-SC58x/ADSP-2158x 529-Ball BGA Ball Assignments (Alphabetical by Pin Name) Configuration of the 529-Ball CSP_BGA Outline Dimensions Surface-Mount Design Automotive Products Ordering Guide