CYNSE70128-83BGI Cypress Semiconductor Corp, CYNSE70128-83BGI Datasheet - Page 35

CYNSE70128-83BGI

Manufacturer Part Number

CYNSE70128-83BGI

Description

Manufacturer

Cypress Semiconductor Corp

Datasheet

1.CYNSE70128-83BGI.pdf (137 pages)

Specifications of CYNSE70128-83BGI

Operating Supply Voltage (min)

1.425V

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Package Type

BGA

Mounting

Surface Mount

Lead Free Status / Rohs Status

Not Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

CYNSE70128-83BGI

Manufacturer:

Quantity:

Current page: 35 of 137
Download datasheet (6Mb)

Note

and odd pairs of GMRs selected for the comparison must be programmed with the same value.

The logical 72-bit Search operation is shown in Figure 10-12. The entire table with eight devices of 72-bit entries is compared to

a 72-bit word K (presented on the DQ bus in both cycles A and B of the command) using the GMR and the local mask bits. The

effective GMR is the 72-bit word specified by the identical value in both even and odd GMR pairs in each of the eight devices and

selected by the GMR Index in the command’s cycle A. The 72-bit word K (presented on the DQ bus in both cycles A and B of the

command) is also stored in both even and odd comparand register pairs (selected by the Comparand Register Index in command

cycle B) in each of the eight devices. In the ×72 configuration, only the even comparand register can subsequently be used by

the Learn command in one of the devices (only the first non-full device). The word K (presented on the DQ bus in both cycles A

and B of the command) is compared with each entry in the table starting at location 0. The first matching entry’s location address

L is the winning address that is driven as part of the SRAM address on the SADR[23:0] lines (see “SRAM Addressing” on

page 105). The global winning device will drive the bus in a specific cycle. On a global miss cycle the device with LRAM = 1

(default driving device for the SRAM bus) and LDEV = 1 (default driving device for SSF and SSV signals) will be the default driver

for such missed cycles.

The Search command is a pipelined operation and executes a search at half the rate of the frequency of CLK2X for 72-bit searches

in x72-configured tables. The latency of SADR, CE_L, ALE_L, WE_L, SSV, and SSF from the 72-bit Search command cycle (two

CLK2X cycles) is shown in Table 10-13.

Table 10-13. The Latency of Search from Instruction to SRAM Access Cycle

The latency of the search from command to SRAM access cycle is 5 for up to eight devices in the table (TLSZ = 01). SSV and

SSF also shift further to the right for different values of HLAT, as specified in Table 10-14.

Table 10-14. Shift OF SSF and SSV from SADR

Document #: 38-02040 Rev. *F

. For 72-bit searches, the host ASIC must supply the same 72-bit data on DQ[71:0] during both cycles A and B, and the even

Number of Devices

1–31 (TLSZ = 10)

1–8 (TLSZ = 01)

1 (TLSZ = 00)

HLAT

000

001

010

100

101

011

110

111

Must be same in each of the eight

Will be same in each of the eight

Comparand Register (Odd)

Comparand Register (Even)

devices

Figure 10-12. x72 Table with Eight Devices

1984K × 72 bits

Max Table Size

512K × 72 bits

64K × 72 bits

Location

address

524287

CFG = 0000000000000000

Number of CLK Cycles

(72-bit configuration)

GMR

Latency in CLK Cycles

(First matching entry)

CYNSE70128

Page 35 of 137

CYNSE70128-83BGI Cypress Semiconductor Corp, CYNSE70128-83BGI Datasheet - Page 35

CYNSE70128-83BGI

Specifications of CYNSE70128-83BGI

Available stocks

Related parts for CYNSE70128-83BGI