XCB56362PV100 Freescale Semiconductor, XCB56362PV100 Datasheet - Page 114
XCB56362PV100
Manufacturer Part Number
XCB56362PV100
Description
DSP Floating-Point 24-Bit 100MHz 100MIPS 144-Pin LQFP
Manufacturer
Freescale Semiconductor
Datasheet
1.DSPB56362AG120.pdf
(152 pages)
Specifications of XCB56362PV100
Package
144LQFP
Numeric And Arithmetic Format
Floating-Point
Maximum Speed
100 MHz
Ram Size
33 KB
Device Million Instructions Per Second
100 MIPS
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
XCB56362PV100
Manufacturer:
MOTOROLA/摩托罗拉
Quantity:
20 000
Host Port Considerations
5.5.2
5-6
•
•
•
•
•
significance, the host could read the wrong combination. Therefore, read the bits twice and
check for consensus.
Overwriting the Host Vector—The host interface programmer should change the host vector
(HV) register only when the host command (HC) bit is clear. This ensures that the DSP interrupt
control logic will receive a stable vector.
Cancelling a Pending Host Command Exception—The host processor may elect to clear the HC
bit to cancel the host command exception request at any time before it is recognized by the DSP.
Because the host does not know exactly when the exception will be recognized (due to exception
processing synchronization and pipeline delays), the DSP may execute the host command
exception after the HC bit is cleared. For these reasons, the HV bits must not be changed at the
same time that the HC bit is cleared.
Variance in the Host Interface Timing—The host interface (HDI) may vary (e.g. due to the PLL
lock time at reset). Therefore, a host which attempts to load (bootstrap) the DSP should first make
sure that the part has completed its HI port programming (e.g., by setting the INIT bit in ICR then
polling it and waiting it to be cleared, then reading the ISR or by writing the TREQ/RREQ together
with the INIT and then polling INIT, ISR, and the HOREQ pin).
Synchronization of Status Bits from Host to DSP—DMA, HF1, HF0, HCP, HTDE, and HRDF
status bits are set or cleared by the host processor side of the interface. These bits are individually
synchronized to the DSP clock. (Refer to the user’s manual for descriptions of these status bits.)
Reading HF0 and HF1 as an Encoded Pair—Care must be exercised when reading status bits
HF0 and HF1 as an encoded pair, (i.e., the four combinations 00, 01, 10, and 11 each have
significance). A very small probability exists that the DSP will read the status bits synchronized
during transition. Therefore, HF0 and HF1 should be read twice and checked for consensus.
DSP Programming Considerations
DSP56362 Technical Data, Rev. 4
Freescale Semiconductor
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