MOSYS M1T2LT18FL32E Datasheet

Low Power Flow-through 2-Mbit (64Kx32)

Standard 1T-SRAM

®

Embedded Memory Macro

M1T2LT18FL32E

M1T2LT18FL32E Rev1_02 Page 1

© 2001 MoSys Inc., All Rights Reserved, 1020 Stewart Drive, Sunnyvale, CA 94085

• Low Power 1T-SRAM Standard Macro

• 10-83 MHz operation

• 1-Clock cycle time

• Flow-through read access timing

• Late write mode timing

• 32-Bit wide data buses

• Byte Write Enables

• Simple standard SRAM interface

• Fast delivery

• Ultra-Dense Memory

• 7.2mm

2

size per macro instance

• Redundancy & fuses included in macro area

• Silicon-Proven 1T-SRAM Technology

• Qualification programs completed

• Products in volume production

• High Yield and Reliability

• Built-in redundancy for enhanced yield

• Standard Logic Process

• TSMC 0.18µm CL018G process

• Logic design rules

• Uses 4 metal layers

• Routing over macro possible in layers 5+

• Power

• Single voltage 1.8V Supply

• Low power consumption

General Description

The M1T2LT18FL32E is a 2Mbit (2.169,152 bits), low power, embedded 1T-SRAM macro. The
M1T2LT18FL32E is organized as 64K(65,536) words of 32 bits. The macro employs a flow-through read
timing interface with early write timing. W rite contr ol over individual bytes in the input data is achieved through
the use of the byte write enable (bweb) input signals. The M1T2LT18FL32E macro is implemented using
MoSys 1T-SRAM technology, resulting in extremely high density and low power.

Low Power Flow-through 2-Mbit (64Kx32)

Standard 1T-SRAM

®

Embedded Memory Macro

M1T2LT18FL32E

M1T2LT18FL32E Rev1_02 Page 2

© 2001 MoSys Inc., All Rights Reserved, 1020 Stewart Drive, Sunnyvale, CA 94085

Memory Interface Signal List

Signal Name Valid Logic Direction Description

adr[15:0] Positive clk edge Positive Input Memory address
bwe[3:0] Positive clk edge Negative Input Memory byte write enables

bweb[n] = 0 enables data write
bweb[n] = 1 disables data write
bweb[3] controls writing of din[31:24]
bweb[2] controls writing of din[23:16]
bweb[1] controls writing of din[15:8]

bweb[0] controls writing of din[7:0]
rdb Positive clk edge Negative Input Memory read
wrb Positive clk edge Negative Input Memory write
ssb[3:0] Positive clk edge Positive Input Speed Select
din[31:0] Positive clk edge Positive Input Memory data in bus
dout[31:0] Negative clk edge Positive Output Memory data out bus
rstb Positive clk edge Negative Input Memory initialization reset
clk Clock Positive Input Memory Clock
mvddcore Memory core supply voltage
mvsscore Memory core ground
mvdd Memory interface supply voltage
mvss Memory interface ground

Recommended Operating Conditions

Symbol Parameter Condition Min Max Units

VDD Supply Voltage Range (1.8V

±10%)

Operating 1.62 1.98 V

TJ Junction Temperature Nominal VDD 0 125 °C

tCYC Cycle Time

Operating 12 100 ns

tCKH Clock High

Operating

0.45*tCYC 0.55*tCYC

ns

tCKL Clock Low

Operating

0.45*tCYC 0.55*tCYC

ns

Power Requirements

Symbol Condition Current per Instance Units

I

DD1

Operating current, VDD=1.8V, clock frequency =

83MHz, memory accessed every clock

0.6 mA/MHz

I

DD2

Standby current, VDD=1.8V, clock frequency =

20MHz, , memory not accessed

2.0 mA

Input Loading

Symbol Condition Load Capacitance Units

C

DIN

din signal input loading 0.4 pF

C

ADR

adr signal input loading 0.4 pF

C

CTL

rdb, wrb and bweb signal input loading 0.4 pF

C

CLK

clk signal input loading 1.0 pF