The MPC8541E integrates a PowerPC™ processor core built on Power Architecture™ technology with system logic required for networking, telecommunications, and wireless infrastructure applications. The MPC8541E is a member of the PowerQUICC™ III family of devices that combine system-level support for industry-standard interfaces with processors that implement the embedded category of the Power Architecture technology. For functional characteristics of the processor, refer to the MPC8555E PowerQUICC™ III Integrated Communications Processor Reference Manual. Overview The following section provides a high-level overview of the MPC8541E features. Figure 1 shows the major functional units within the MPC8541E. Key Features The following lists an overview of the MPC8541E feature set. • Embedded e500 Book E-compatible core — High-performance, 32-bit Book E-enhanced core that implements the PowerPC architecture — Dual-issue superscalar, 7-stage pipeline design — 32-Kbyte L1 instruction cache and 32-Kbyte L1 data cache with parity protection — Lockable L1 caches—entire cache or on a per-line basis — Separate locking for instructions and data — Single-precision floating-point operations — Memory management unit especially designed for embedded applications — Enhanced hardware and software debug support — Dynamic power management — Performance monitor facility • Security Engine is optimized to handle all the algorithms associated with IPSec, SSL/TLS, SRTP, IEEE Std 802.11i™, iSCSI, and IKE processing. The Security Engine contains 4 Crypto-channels, a Controller, and a set of crypto Execution Units (EUs). The Execution Units are: — Public Key Execution Unit (PKEU) supporting the following: – RSA and Diffie-Hellman – Programmable field size up to 2048-bits – Elliptic curve cryptography – F2m and F(p) modes – Programmable field size up to 511-bits — Data Encryption Standard Execution Unit (DEU) – DES, 3DES – Two key (K1, K2) or Three Key (K1, K2, K3) – ECB and CBC modes for both DES and 3DES — Advanced Encryption Standard Unit (AESU) – Implements the Rinjdael symmetric key cipher – Key lengths of 128, 192, and 256 bits.Two key – ECB, CBC, CCM, and Counter modes — ARC Four execution unit (AFEU) – Implements a stream cipher compatible with the RC4 algorithm – 40- to 128-bit programmable key — Message Digest Execution Unit (MDEU) – SHA with 160-bit or 256-bit message digest – MD5 with 128-bit message digest – HMAC with either algorithm — Random Number Generator (RNG) — 4 Crypto-channels, each supporting multi-command descriptor chains – Static and/or dynamic assignment of crypto-execution units via an integrated controller – Buffer size of 256 Bytes for each execution unit, with flow control for large data sizes • High-performance RISC CPM — Two full-duplex fast communications controllers (FCCs) that support the following protocol: – IEEE Std 802.3™/Fast Ethernet (10/100) — Serial peripheral interface (SPI) support for master or slave — I2C bus controller — General-purpose parallel ports—16 parallel I/O lines with interrupt capability • 256 Kbytes of on-chip memory — Can act as a 256-Kbyte level-2 cache — Can act as a 256-Kbyte or two 128-Kbyte memory-mapped SRAM arrays — Can be partitioned into 128-Kbyte L2 cache plus 128-Kbyte SRAM — Full ECC support on 64-bit boundary in both cache and SRAM modes — SRAM operation supports relocation and is byte-accessible — Cache mode supports instruction caching, data caching, or both — External masters can force data to be allocated into the cache through programmed memory ranges or special transaction types (stashing). — Eight-way set-associative cache organization (1024 sets of 32-byte cache lines) — Supports locking the entire cache or selected lines – Individual line locks set and cleared through Book E instructions or by externally mastered transactions — Global locking and flash clearing done through writes to L2 configuration registers — Instruction and data locks can be flash cleared separately — Read and write buffering for internal bus accesses (Continue....)
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