ADSP-21065LCSZ-240 Analog Devices Inc, ADSP-21065LCSZ-240 Datasheet - Page 4

ADSP-21065LCSZ-240

Manufacturer Part Number

ADSP-21065LCSZ-240

Description

ADSP-21065L 60 Mhz

Manufacturer

Analog Devices Inc

Series

SHARC®r

Type

Fixed/Floating Pointr

Datasheet

1.ADSP-21065LKSZ-240.pdf (44 pages)

Specifications of ADSP-21065LCSZ-240

Interface

Host Interface, Serial Port

Clock Rate

60MHz

Non-volatile Memory

External

On-chip Ram

64kB

Voltage - I/o

3.30V

Voltage - Core

3.30V

Operating Temperature

-40°C ~ 100°C

Mounting Type

Surface Mount

Package / Case

208-MQFP, 208-PQFP

Device Core Size

32b

Architecture

Enhanced Harvard

Format

Floating Point

Clock Freq (max)

60MHz

Mips

Device Input Clock Speed

60MHz

Ram Size

68KB

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (min)

3.13V

Operating Supply Voltage (max)

3.6V

Operating Temp Range

-40C to 100C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

208

Package Type

MQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

ADS-P21065LCSZ240
ADS-P21065LCSZ240

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Company:

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ADSP-21065L

structures required in digital signal processing, and are com-

monly used in digital filters and Fourier transforms. The

ADSP-21065L’s two DAGs contain sufficient registers to allow

the creation of up to 32 circular buffers (16 primary register

sets, 16 secondary). The DAGs automatically handle address

pointer wraparound, reducing overhead, increasing perfor-

mance, and simplifying implementation. Circular buffers can

start and end at any memory location.

Flexible Instruction Set

The 48-bit instruction word accommodates a variety of parallel

operations, for concise programming. For example, the ADSP-

21065L can conditionally execute a multiply, an add, a subtract

and a branch, all in a single instruction.

ADSP-21065L FEATURES

The ADSP-21065L is designed to achieve the highest system

throughput to enable maximum system performance. It can be

clocked by either a crystal or a TTL-compatible clock signal.

The ADSP-21065L uses an input clock with a frequency equal

to half the instruction rate—a 33 MHz input clock yields a

15 ns processor cycle (which is equivalent to 66 MHz). Inter-

faces on the ADSP-21065L operate as shown below. Hereafter

in this document, 1x = input clock frequency, and 2x = processor’s

instruction rate.

The following clock operation ratings are based on 1x = 33 MHz

(instruction rate/core = 66 MHz):

Augmenting the ADSP-21000 family core, the ADSP-21065L

adds the following architectural features:

Dual-Ported On-Chip Memory

The ADSP-21065L contains 544 Kbits of on-chip SRAM,

organized into two banks: Bank 0 has 288 Kbits, and Bank 1 has

256 Kbits. Bank 0 is configured with 9 columns of 2K ¥ 16 bits,

and Bank 1 is configured with 8 columns of 2K ¥ 16 bits. Each

memory block is dual-ported for single-cycle, independent accesses

by the core processor and I/O processor or DMA controller.

The dual-ported memory and separate on-chip buses allow two

data transfers from the core and one from I/O, all in a single

cycle (see Figure 4 for the ADSP-21065L Memory Map).

On the ADSP-21065L, the memory can be configured as a

maximum of 16K words of 32-bit data, 34K words for 16-bit

data, 10K words of 48-bit instructions (and 40-bit data) or

combinations of different word sizes up to 544 Kbits. All the

memory can be accessed as 16-bit, 32-bit or 48-bit.

While each memory block can store combinations of code and

data, accesses are most efficient when one block stores data,

using the DM bus for transfers, and the other block stores

instructions and data, using the PM bus for transfers. Using the

DM and PM busses in this way, with one dedicated to each

memory block, assures single-cycle execution with two data

transfers. In this case, the instruction must be available in the

cache. Single-cycle execution is also maintained when one of

the data operands is transferred to or from off-chip, via the

ADSP-21065L’s external port.

SDRAM

External SRAM

Serial Ports

Multiprocessing

Host (Asynchronous)

66 MHz

33 MHz

–4–

Off-Chip Memory and Peripherals Interface

The ADSP-21065L’s external port provides the processor’s

interface to off-chip memory and peripherals. The 64M words,

off-chip address space is included in the ADSP-21065L’s

unified address space. The separate on-chip buses—for program

memory, data memory and I/O—are multiplexed at the external

port to create an external system bus with a single 24-bit

address bus, four memory selects, and a single 32-bit data bus.

The on-chip Super Harvard Architecture provides three bus

performance, while the off-chip unified address space gives

flexibility to the designer.

SDRAM Interface

The SDRAM interface enables the ADSP-21065L to transfer

data to and from synchronous DRAM (SDRAM) at 2x clock

frequency. The synchronous approach coupled with 2x clock

frequency supports data transfer at a high throughput—up to

220 Mbytes/sec.

The SDRAM interface provides a glueless interface with stan-

dard SDRAMs—16 Mb, 64 Mb, and 128 Mb—and includes

options to support additional buffers between the ADSP-21065L

and SDRAM. The SDRAM interface is extremely flexible and

provides capability for connecting SDRAMs to any one of the

ADSP-21065L’s four external memory banks.

Systems with several SDRAM devices connected in parallel may

require buffering to meet overall system timing requirements.

The ADSP-21065L supports pipelining of the address and

control signals to enable such buffering between itself and

multiple SDRAM devices.

Host Processor Interface

The ADSP-21065L’s host interface provides easy connection to

standard microprocessor buses—8-, 16-, and 32-bit—requiring

little additional hardware. Supporting asynchronous transfers at

speeds up to 1x clock frequency, the host interface is accessed

through the ADSP-21065L’s external port. Two channels of

DMA are available for the host interface; code and data trans-

fers are accomplished with low software overhead.

The host processor requests the ADSP-21065L’s external bus

with the host bus request (HBR), host bus grant (HBG), and

ready (REDY) signals. The host can directly read and write the

IOP registers of the ADSP-21065L and can access the DMA

channel setup and mailbox registers. Vector interrupt support

enables efficient execution of host commands.

DMA Controller

The ADSP-21065L’s on-chip DMA controller allows zero-

overhead, nonintrusive data transfers without processor inter-

vention. The DMA controller operates independently and

invisibly to the processor core, allowing DMA operations to

occur while the core is simultaneously executing its program

instructions.

DMA transfers can occur between the ADSP-21065L’s internal

memory and either external memory, external peripherals, or a

host processor. DMA transfers can also occur between the

ADSP-21065L’s internal memory and its serial ports. DMA

transfers between external memory and external peripheral

devices are another option. External bus packing to 16-, 32-, or

48-bit internal words is performed during DMA transfers.

Ten channels of DMA are available on the ADSP-21065L—

eight via the serial ports, and two via the processor’s external

port (for either host processor, other ADSP-21065L, memory or

REV. C

ADSP-21065LCSZ-240 Analog Devices Inc, ADSP-21065LCSZ-240 Datasheet - Page 4

ADSP-21065LCSZ-240

Specifications of ADSP-21065LCSZ-240

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