EP1AGX20CF484C6N Altera, EP1AGX20CF484C6N Datasheet - Page 109
EP1AGX20CF484C6N
Manufacturer Part Number
EP1AGX20CF484C6N
Description
IC ARRIA GX FPGA 20K 484FBGA
Manufacturer
Altera
Series
Arria GXr
Datasheet
1.EP1AGX20CF484C6N.pdf
(234 pages)
Specifications of EP1AGX20CF484C6N
Number Of Logic Elements/cells
21580
Number Of Labs/clbs
1079
Total Ram Bits
1229184
Number Of I /o
230
Voltage - Supply
1.15 V ~ 1.25 V
Mounting Type
Surface Mount
Operating Temperature
0°C ~ 85°C
Package / Case
484-FBGA
Family Name
Arria™ GX
Number Of Logic Blocks/elements
21580
# I/os (max)
230
Process Technology
CMOS
Operating Supply Voltage (typ)
1.2V
Logic Cells
21580
Ram Bits
1229184
Operating Supply Voltage (min)
1.15V
Operating Supply Voltage (max)
1.25V
Operating Temp Range
0C to 85C
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Pin Count
484
Package Type
FC-FBGA
No. Of Macrocells
21580
Family Type
Arria GX
No. Of I/o's
230
Operating Frequency Max
622.08MHz
Operating Temperature Range
0°C To +85°C
Logic Case Style
BGA
No. Of Pins
484
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Number Of Gates
-
Lead Free Status / Rohs Status
Compliant
Other names
544-2395
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
EP1AGX20CF484C6N
Manufacturer:
ALTERA
Quantity:
672
Chapter 2: Arria GX Architecture
High-Speed Differential I/O with DPA Support
Figure 2–80. GX Receiver Channel
© December 2009 Altera Corporation
Up to 840 Mbps
f
Eight Phase Clocks
Figure 2–80
An external pin or global or regional clock can drive the fast PLLs, which can output
up to three clocks: two multiplied high-speed clocks to drive the SERDES block
and/or external pin, and a low-speed clock to drive the logic array. In addition, eight
phase-shifted clocks from the V
For more information about fast PLL, refer to the
The eight phase-shifted clocks from the fast PLL feed to the DPA block. The DPA
block selects the closest phase to the center of the serial data eye to sample the
incoming data. This allows the source-synchronous circuitry to capture incoming data
correctly regardless of channel-to-channel or clock-to-channel skew. The DPA block
locks to a phase closest to the serial data phase. The phase-aligned DPA clock is used
to write the data into the synchronizer.
The synchronizer sits between the DPA block and the data realignment and SERDES
circuitry. Because every channel using the DPA block can have a different phase
selected to sample the data, the synchronizer is needed to synchronize the data to the
high-speed clock domain of the data realignment and the SERDES circuitry.
For high-speed source-synchronous interfaces such as POS-PHY 4 and the Parallel
RapidIO standard, the source synchronous clock rate is not a byte- or SERDES-rate
multiple of the data rate. Byte alignment is necessary for these protocols because the
source synchronous clock does not provide a byte or word boundary as the clock is
one half the data rate, not one eighth. The Arria GX device’s high-speed differential
I/O circuitry provides dedicated data realignment circuitry for user-controlled byte
boundary shifting. This simplifies designs while saving ALM resources. You can use
an ALM-based state machine to signal the shift of receiver byte boundaries until a
specified pattern is detected to indicate byte alignment.
+
–
refclk
data
Fast
PLL
8
retimed_data
DPA
shows the block diagram of the Arria GX receiver channel.
DPA_clk
Synchronizer
diffioclk
load_en
D
Q
CO
can feed to the DPA circuitry.
Data Realignment
Circuitry
Dedicated
Interface
Receiver
PLLs in Arria GX Devices
Arria GX Device Handbook, Volume 1
Data to R4, R24, C4, or
direct link interconnect
Regional or
global clock
10
chapter.
2–103
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