CYNSE70032 Datasheet, PDF(90/126 Page) Cypress Semiconductor

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CYNSE70032 Datasheet, PDF (90/126 Pages) Cypress Semiconductor – Network Search Engine

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CYNSE70032

â¢ Cycle D: The host ASIC continues to drive CMDV high and to apply Search command code (10) on CMD[1:0]. CMD[8:6]

signals must be driven with the index of the SSR that will be used for storing the address of the matching entry and the hit flag

(see page 14 for a description of SSR[0:7]). The DQ[67:0] is driven with the 68-bit data ([67:0]) to be compared to all locations 3

in the four 68-bits-word page. CMD[5:2] is ignored because the Learn instruction is not supported for Ã272 tables.

Note. For 272-bit searches, the host ASIC must supply four distinct 68-bit data words on DQ[67:0] during cycles A, B, C, and D.

The GMR Index in cycle A selects a pair of GMRs in each of the 31 devices that apply to DQ data in cycles A and B. The GMR

Index in cycle C selects a pair of GMRs in each of the 31 devices that apply to DQ data in cycles C and D.

The logical 272-bit Search operation is as shown in Figure 13-66. The entire table of 272-bit entries is compared to a 272-bit word

K that is presented on the DQ bus in cycles A, B, C, and D of the command using the GMR and local mask bits. The GMR is the

272-bit word specified by the two pairs of GMRs selected by the GMR Indexes in the commandâs cycles A and C in each of the

31 devices. The 272-bit word K that is presented on the DQ bus in cycles A, B, C, and D of the command is compared to each

entry in the table starting at location 0. The first matching entryâs location address L is the winning address that is driven as part

of the SRAM address on the SADR[21:0] lines (see âSRAM Addressingâ on page 98). Note. The matching address is always going

to be location 0 in a four-entry page for 272-bit search (two LSBs of the matching index will be 00).

271

GMR

Must be same in each of the 31

devices

Location 271

address

(First matching entry)

507900

CFG = 10101010

(272-bit configuration)

Figure 13-66. x272 Table with 31 Devices

The Search command is a pipelined operation that executes a Search at one-fourth the rate of the frequency of CLK2X for 272-bit

searches in Ã272-configured tables. The latency of SADR, CE_L, ALE_L, WE_L, SSV, and SSF from the 272-bit Search

command (measured in CLK cycles) from the CLK2X cycle containing the C and D cycles is shown in Table 13-23.

Table 13-23. Search Latency from Instruction to SRAM Access Cycle

Number of Devices

1 (TLSZ = 00)

1â8 (TLSZ = 01)

1â31 (TLSZ = 10)

Max Table Size

4K Ã 272 bits

32K Ã 272 bits

124K Ã 272 bits

Latency in CLK Cycles

Search latency from command to SRAM access cycle is 6 only for a single device in the table with TLSZ = 10. In addition, SSV

and SSF shift further to the right for different values of HLAT, as specified in Table 13-24.

Table 13-24. Shift of SSF and SSV from SADR

HLAT

000

001

010

011

100

101

110

111

Number of CLK Cycles

Document #: 38-02042 Rev. *E

Page 90 of 126

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