CYNSE70064A-83BGC Cypress Semiconductor Corp, CYNSE70064A-83BGC Datasheet - Page 92
CYNSE70064A-83BGC
Manufacturer Part Number
CYNSE70064A-83BGC
Description
Manufacturer
Cypress Semiconductor Corp
Datasheet
1.CYNSE70064A-83BGC.pdf
(128 pages)
Specifications of CYNSE70064A-83BGC
Operating Supply Voltage (typ)
1.8V
Operating Supply Voltage (min)
1.7V
Operating Supply Voltage (max)
1.9V
Operating Temp Range
0C to 70C
Operating Temperature Classification
Commercial
Package Type
BGA
Mounting
Surface Mount
Lead Free Status / Rohs Status
Not Compliant
Available stocks
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Part Number
Manufacturer
Quantity
Price
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Part Number:
CYNSE70064A-83BGC
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CY
Quantity:
20
The logical 272-bit Search operation is as shown in Figure 10-70. 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 command’s 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 entry’s location address L is the winning address that is driven as part
of the SRAM address on the SADR[21:0] lines (See “SRAM Addressing” on page 101.). 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).
The Search command is a pipelined operation and executes a Search at one-fourth the rate of the frequency of CLK2X for 272-bit
searches in ×272-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 that contains the C and D cycles is shown in Table 10-32.
Table 10-32. The Latency of Search from C and D cycles to SRAM Access Cycle
The latency of a Search from command to SRAM access cycle is 6 for only a single device in the table and TLSZ = 10. In addition,
SSV and SSF shift further to the right for different values of HLAT, as specified in Table 10-33.
Table 10-33. Shift of SSF and SSV from SADR
10.15
This subsection will cover mixed searches (×68, ×136, and ×272) with tables of different widths (×68, ×136, ×272). The sample
operation shown is for a single device with CFG = 10010000 containing three tables of ×68, ×136, and ×272 widths. The operation
can be generalized to a block of eight to 31 devices using four blocks; the timing and the pipeline operation is the same as
described previously for fixed searches on a table of one-width-size.
Figure 10-71 shows three sequential searches: first, a 68-bit Search on the table configured as ×68, then a 136-bit Search on a
table configured as ×136, and finally a 272-bit Search on the table configured as ×272 bits that each results in a hit. Note.In order
to differentiate between different partitions, table ID bits will have to be allocated. In the case of this example, 2 bits are needed
to differentiate between partitions of 3 different sizes. These could be any two bits. As an example, DQ[67:66] will be 00 in each
of the two A and B cycles of the ×68-bit Search (Search1). DQ[67:66] is 01 in each of the A and B cycles of the ×136-bit Search
Document #: 38-02041 Rev. *F
Mixed-Sized Searches on Tables Configured with Different Widths Using an CYNSE70064A Device
Number of Devices
1–31 (TLSZ = 10)
1–8 (TLSZ = 01)
1 (TLSZ = 00)
HLAT
000
001
010
100
101
011
110
111
Location
1015804
address
GMR
12
L
0
4
8
Figure 10-70. ×272 Table with 31 Devices
K
271
271
0
CFG = 10101010
A
Max Table Size
248K × 272 bits
64K × 272 bits
8K × 272 bits
1
B
(272-bit configuration)
Number of CLK Cycles
2
C
0
1
2
3
4
5
6
7
3
D
0
0
Latency in CLK Cycles
(First matching entry)
CYNSE70064A
Must be same in each
4
5
6
of the 31 devices
Page 92 of 128
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