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PDF GS81314PQ18GK Data sheet ( Hoja de datos )

Número de pieza GS81314PQ18GK
Descripción 144Mb SigmaQuad-IVe Burst of 2 Multi-Bank ECCRAM
Fabricantes GSI Technology 
Logotipo GSI Technology Logotipo



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GS81314PQ18/36GK-133/120/106
260-Pin BGA
Com & Ind Temp
POD I/O
144Mb SigmaQuad-IVe™
Burst of 2 Multi-Bank ECCRAM™
Up to 1333 MHz
1.25V ~ 1.3V VDD
1.2V ~ 1.3V VDDQ
Features
• 4Mb x 36 and 8Mb x 18 organizations available
• Organized as 16 logical memory banks
• 1333 MHz maximum operating frequency
• 2.666 BT/s peak transaction rate (in billions per second)
• 192 Gb/s peak data bandwidth (in x36 devices)
• Separate I/O DDR Data Buses
• Non-multiplexed DDR Address Bus
• Two operations - Read and Write - per clock cycle
• Certain address/bank restrictions on Read and Write ops
• Burst of 2 Read and Write operations
• 6 cycle Read Latency
• On-chip ECC with virtually zero SER
• Loopback signal timing training capability
• 1.25V ~ 1.3V nominal core voltage
• 1.2V ~ 1.3V POD I/O interface
• Configuration registers
• Configurable ODT (on-die termination)
• ZQ pin for programmable driver impedance
• ZT pin for programmable ODT impedance
• IEEE 1149.1 JTAG-compliant Boundary Scan
• 260-pin, 14 mm x 22 mm, 1 mm ball pitch, 6/6 RoHS-
compliant BGA package
SigmaQuad-IVeFamily Overview
SigmaQuad-IVe ECCRAMs are the Separate I/O half of the
SigmaQuad-IVe/SigmaDDR-IVe family of high performance
ECCRAMs. Although similar to GSI's third generation of
networking SRAMs (the SigmaQuad-IIIe/SigmaDDR-IIIe
family), these fourth generation devices offer several new
features that help enable significantly higher performance.
Clocking and Addressing Schemes
The GS81314PQ18/36GK SigmaQuad-IVe ECCRAMs are
synchronous devices. They employ three pairs of positive and
negative input clocks; one pair of master clocks, CK and CK,
and two pairs of write data clocks, KD[1:0] and KD[1:0]. All
six input clocks are single-ended; that is, each is received by a
dedicated input buffer.
CK and CK are used to latch address and control inputs, and to
control all output timing. KD[1:0] and KD[1:0] are used solely
to latch data inputs.
Each internal read and write operation in a SigmaQuad-IVe B2
ECCRAM is two times wider than the device I/O bus. An input
data bus de-multiplexer is used to accumulate incoming data
before it is simultaneously written to the memory array. An
output data multiplexer is used to capture the data produced
from a single memory array read and then route it to the
appropriate output drivers as needed. Therefore, the address
field of a SigmaQuad-IVe B2 ECCRAM is always one address
pin less than the advertised index depth (e.g. the 8M x 18 has
4M addressable index).
On-Chip Error Correction Code
GSI's ECCRAMs implement an ECC algorithm that detects
and corrects all single-bit memory errors, including those
induced by SER events such as cosmic rays, alpha particles,
etc. The resulting Soft Error Rate of these devices is
anticipated to be <0.002 FITs/Mb — a 5-order-of-magnitude
improvement over comparable SRAMs with no on-chip ECC,
which typically have an SER of 200 FITs/Mb or more.
All quoted SER values are at sea level in New York City.
Speed Grade
-133
-120
-106
Parameter Synopsis
Max Operating Frequency
1333 MHz
1200 MHz
1066 MHz
Read Latency
6 cycles
6 cycles
6 cycles
VDD
1.2V to 1.35V
1.2V to 1.35V
1.2V to 1.35V
Rev: 1.09 5/2016
1/39
Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.
© 2014, GSI Technology

1 page




GS81314PQ18GK pdf
GS81314PQ18/36GK-133/120/106
Symbol
ZQ
RCS
MZT
PZT[1:0]
VDD
VDDQ
VREF
VSS
TCK
TMS
TDI
TDO
MCH
MCL
NC
NUI
NUO
Description
Driver / ODT Impedance Control Resistor Input — Must be connected to VSS through an external resistor
RQ to program driver and ODT impedances.
Current Source Resistor Input — Must be connected to VSS through an external 2Kresistor to provide
an accurate current source for the PLL.
ODT Mode Select — Sets the default ODT state globally for all input groups during power-up and reset.
Must be tied High or Low.
MZT = 0: disables ODT on all input groups, regardless of PZT[1:0].
MZT = 1: enables ODT on select input groups, as specified by PZT[1:0].
Note: The ODT state for each input group can be changed at any time via the Configuration Registers.
ODT Configuration Select — Set the default ODT state for various combinations of input groups during
power-up and reset, when MZT = 1. Must be tied High or Low.
PZT[1:0] = 00: enables ODT on write data only.
PZT[1:0] = 01: enables ODT on write data and input clocks.
PZT[1:0] = 10: enables ODT on write data, address, and control.
PZT[1:0] = 11: enables ODT on write data, input clocks, address, and control.
Note: The ODT state for each input group can be changed at any time via the Configuration Registers.
Core Power Supply
I/O Power Supply
Input Reference Voltage — Input buffer reference voltage.
Ground
JTAG Clock — Weakly pulled Low internally.
JTAG Mode Select — Weakly pulled High internally.
JTAG Data Input — Weakly pulled High internally.
JTAG Data Output
Must Connect High — May be tied to VDDQ directly or via a 1kresistor.
Must Connect Low — May be tied to VSS directly or via a 1kresistor.
No Connect — There is no internal chip connection to these pins. They may be left unconnected, or tied/
driven High or Low.
Not Used Input — There is an internal chip connection to these input pins, but they are unused by the
device. They are pulled High internally. They may be left unconnected or tied/driven High. They should not
be tied/driven Low.
Not Used Output — There is an internal chip connection to these output pins, but they are unused by the
device. The drivers are tri-stated internally. They should be left unconnected.
Type
Input
Input
Input
Input
Input
Input
Input
Output
Input
Input
Input
Output
Rev: 1.09 5/2016
5/39
Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.
© 2014, GSI Technology

5 Page





GS81314PQ18GK arduino
GS81314PQ18/36GK-133/120/106
Register Write Mode Utilization - Synchronous Method
Register Write Mode can also be utilized synchronously up to the full operating speed of the device. However, MRW cannot be
trained using Loopback Mode, so the ability to use it synchronously may be limited to slower operating frequencies where the lack
of training capability is less problematic for the user.
In this case, MRW, R, W, and SA[10:1] are all driven synchronously (i.e. they all meet setup and hold time specs to CK). When
Register Write Mode is utilized in this manner, multiple registers can be programmed in successive cycles. The timing diagrams
below arbitrarily show four registers programmed in successive cycles, but in practice it can be any number greater than or equal to
one.
The requirements for this usage case are as follows:
• At least 16 NOPs must be initiated before and after the Register Write(s).
• MRW must be driven High (synchronously), R must be driven Low (synchronously), and SA[10:1] must be driven Valid (syn-
chronously) for each Register Write.
• W state is a “don’t care” (synchronously) for each Register Write.
Synchronous Register Write Timing Diagram
Read / Write
16 NOPs
Register Write Mode
16 NOPs
Read / Write
CK
tIVKH tKHIX
SA[10:1] V
Reg #a Reg #b Reg #c Reg #d
VV
WV
XXXX
VV
RV
tRVKH tKHRX
VV
MRW
Rev: 1.09 5/2016
11/39
Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.
© 2014, GSI Technology

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