Application Note AC274
November 2012 1
© 2012 Microsemi Corporation
CQFP to FBGA Adapter Sockets
Table of Contents
Introduction
RTAX™-S/SL devices are radiation-tolerant FPGAs that offer industry- leading advantages for designers
of spaceflight systems. The RTAX-S/SL family is a derivative of the Axcelerator® family, with up to two
million system gates. The RTAX-S/SL FPGA provides the designer with nearly 250K ASIC gates, with
error detection and correction (EDAC) protected static RAM. Microsemi offers the RTAX-S/SL device in
two package styles: the ceramic column grid array (CCGA) and ceramic quad flat pack (CQFP).
Microsemi has developed four low cost prototyping methods for RTAX-S/SL devices packaged in a
CQFP or CCGA, using the Axcelerator family fine pitch ball grid array (FBGA) or ceramic land grid array
(LGA) as a prototyping vehicle:
• CQFP to FBGA adapter socket
• CQFP to LGA adapter socket
• CCGA to FBGA adapter socket
• CCGA to LGA adapter socket
This document describes the adapter sockets for the CQFP and the procedure for assembling them.
Note: These adapters are intended for developing functional prototypes and are not designed for
at-speed testing, especially for sensitive I/Os such as LVDS. The intention of the prototyping
adapters is to provide functional validation; they may limit the performance of the FPGA.
CQFP to FBGA Adapter Sockets
The CQFP to FBGA adapter sockets have an FBGA configuration on the top and a CQFP configuration
on the bottom. The adapter sockets enable customers to use a commercial Axcelerator FG package
during prototyping, and then switch to an equivalent CQ256 or CQ352 package for production. There are
four CQFP to FBGA adapter sockets available. Their ordering part numbers are listed in Table 1 on page
2.
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
CQFP to FBGA Adapter Sockets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
CQFP to FBGA Adapter Socket Assembly Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . 6
CQ352 to FG484 23x23 Adapter Socket Outline Drawing . . . . . . . . . . . . . . . . . . . . . . . 11
CQ352 to FG896 Adapter Socket Outline Drawing . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
CQ256 to FG896 Adapter Socket Outline Drawing . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
CQ352 to FG896 Adapter Socket Alignment Pins . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Reflow Profile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Interposer Insertion Limitations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
High Frequency Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
CQFP to FBGA Adapter Pin Mapping List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Prototyped Product, Adapter, and PCB Design Matrix . . . . . . . . . . . . . . . . . . . . . . . . . 16
List of Changes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
CQFP to FBGA Adapter Sockets
2
Figure 1 shows the CQ352 to FG896 complete assembly kit. SK-A1-AX2-KITTOP contains a socket LID
(3), interposer (4), and eight screws (5). SK-AX1-CQ352-KITBTM contains the items: ceramic adapter
(1), which is a unique adapter for AX1000, socket housing (2), and eight screws (5). SK-AX2-CQ352-
KITBTM contains the following items: ceramic adapter (1), which is unique for AX2000, socket housing
(2), and eight screws plus two alignment pins (5). The alignment pins are optional pins to assist in the
assembly of the adapter socket.
Table 1 • Adapter Socket Part Number
Adapter Socket Ordering Part Number Prototyped and Prototype Device
CQ352 to FG484 23x23 SK-AX250-CQ352RTFG484S For prototyping RTAX250S/L-CQ352 or
AX250-CQ352 using the AX250-FG484
package
CQ352 to FG896 SK-AX1-AX2-KITTOP and
SK-AX1-CQ352-KITBTM
For prototyping RTAX1000S/L-CQ352 or
AX1000-CQ352 using the AX1000-FG896
package
CQ352 to FG896 SK-AX1-AX2-KITTOP and
SK-AX2-CQ352-KITBTM
For prototyping RTAX2000S/L-CQ352 or
AX2000-CQ352 using the AX2000-FG896
package
CQ256 to FG896 SK-AX2-CQ256-KITTOP and
SK-AX2-CQ256-KITBTM
For prototyping RTAX2000S/L-CQ256 or
AX2000-CQ256 using the AX2000-FG896
package
Figure 1 • Parts of CQ352 to FG896 Adapter Socket; (1) Ceramic Adapter, (2) Socket Housing,
(3) Socket Lid, (4) Socket Interposer, (5) Fixing Screws and Alignment Pins
CQFP to FBGA Adapter Sockets
3
Figure 2 shows the CQ352 to FG484 complete assembly kit. SK-AX250-CQ352RTF484S contains a
socket lid (3), interposer (4), and sixteen screws (5).
Figure 3 shows the CQ256 to FG896 complete assembly kit. SK-AX2-CQ256-KITTOP contains items
socket LID (3), interposer(4), and eight screws from (5). The SK-AX2-CQ256-KITBTM contains the
following items: ceramic adapter (1), which is unique for RT/AX2000, socket housing (2), and eight
screws from (5).
Figure 2 • Parts of CQ256 to FG896 Adapter Socket; (1) Ceramic Adapter, (2) Socket Housing,
(3) Socket Lid, (4) Socket Interposer, (5) Fixing Screws
Figure 3 • RTAX2000S CQ256 to FG896 Ceramic Adapter, Top View and Bottom View and
Orientation Drawings
CQFP to FBGA Adapter Sockets
4
Figure 4 shows the top view, and bottom view, and orientation view of the RTAX2000S CQ352 to FG896
adapter.
Figure 5 shows the top view, bottom view, and orientation view of the RTAX1000S CQ352 to FG896
adapter.
Figure 4 • RTAX2000S CQ352 to FG896 Adapter Top View, Bottom View and Orientation Drawing
Figure 5 • RTAX1000S CQ352 to FG896 Adapter Top View, Bottom View and Orientation Drawing
(1.00X45°)
CHAMFER 352
1
(0.50X45°)
CHAMFER
88
89
265
264
3X
4X
176
177
Top View Bottom View
RTAX2000S (or AX2000) CQ352 to AX2000 FG896 Adapter Top View and Bottom View Drawing
INDEX (Pin 1) MARK
265
264
(1.00X45°)
CHAMFER 352
1
(0.50X45°)
CHAMFER
88
89
3X
4X
176
177
INDEX (Pin 1) MARK
Top View Bottom View
RTAX1000S (or AX1000) CQ352 to AX2000 FG896 Adapter Top View and Bottom View Drawing
P/N LOGO ("1" is not an index mark)
P/N LOGO
CQFP to FBGA Adapter Sockets
5
Figure 6 shows the top view, bottom view, and orientation view of the RTAX250S CQ352 to FG484 23x23
adapter.
Figure 7 shows the top view, bottom view, and orientation view of the RTAX2000S CQ256 to FG896
adapter.
Figure 6 • RTAX250S CQ352 to FG484 Adapter Top View, Bottom View and Orientation Drawing
Figure 7 • RTAX2000S CQ256 to FG896 Adapter Ceramic Adapter Top View and Bottom View
(1.00X45°)
CHAMFER 352
1
(0.50X45°)
CHAMFER
88
89
3X
265
264
176
177
INDEX (Pin 1) MARK
Top View Bottom View
RTAX250S (or AX250) CQ352 to AX250 FG896 Adapter Top View and Bottom View Drawing
P/N LOGO
P/N LOGO
LOG O M A RK
Top View Bottom View
RTA X 2000S (or AX2000) CQ256 t o A X 2000 FG896 A da pter T o p View and B otto m View Dra w ing
Pin 1 corn er
(1.00X45º)
CHAMFER
Pin 1 corn er
(1.00X45º)
CHAMFER
256 256
LEA D No . 1 LEA D No . 1
CQFP to FBGA Adapter Sockets
6
CQFP to FBGA Adapter Socket Assembly Procedure
Step 1
Trim and Form the CQFP Ceramic Adapter.
Notes:
1. Do NOT solder adapter to the circuit board until housing has been attached, as detailed in step 2
below.
2. The shape of the CQ256 to FG896 adapter leads after trim and form is different from those of the
CQ352 to FG896 adapter and CQ352 to FG484 23x23. Refer to Figure 8.
Figure 9 shows CQ352 to FG896 adapter trim and form.
Figure 10 and Figure 11 on page 7 show CQ256 to FG896 adapter trim and form.
Figure 8 • CQ256 to FG896 Adapter Leads vs. CQ352 to FG896 Adapter or CQ352 to FG484 23x23 Adapter
Leads after Trim and Form
CQ 256 to FG 896 A dapt er Lea ds
after T rim and Form
CQ 352 to FG484 23 × 23 A da pter o r
CQ352 to FG896 Adapter Leads
after T rim and Form
Figure 9 • CQ352 to FG896 Adapter View of Before and After Trimmed and Formed
Figure 10 • CQ256 to FG896 Adapter View of Before and After Trimmed and Formed
CQFP to FBGA Adapter Socket Assembly Procedure
7
Step 2
Assemble Socket Housing to Adapter (Torque Limit Screw Driver Not Required)
For the CQ352 to FG896 adapter, turn the ceramic adapter and socket housing upside down (Figure 12).
Figure 11 • CQ256 to FG896 Adapter View of Before and After Trimmed and Formed (photo)
Figure 12 • Upside Down View of CQ352 to FG896 Ceramic Adapter and Socket Housing
CQFP to FBGA Adapter Sockets
8
Align the adapter A1 corner to the socket housing notch corner, and fasten the ceramic adapter to the
socket housing with the eight screws provided (Figure 13).
Turn the assembly adapter over (Figure 14).
Note: The housing, eight screws, two alignment pins (usage is optional) plus the ceramic adapter form the
KITBTM assembly.
Figure 13 • Illustration of Joining the CQ352 to FG896 Adapter to the Socket Housing
Figure 14 • View of Assembled CQ352 to FG896 Adapter Socket with Socket Housing
CQFP to FBGA Adapter Socket Assembly Procedure
9
For the CQ256 to FG896 adapter, step 2 is to assemble the socket housing on the ceramic adapter.
Refer to Figure 15.
Step 3
Reflow the Adapter to the PCB (Figure 16).
Note: Since reflow profiles depend heavily upon the size of the board and its components, perform reflow
process optimization for better results.
Figure 15 • View of Assembled CQ256 to FG896 Adapter with Socket Housing
Figure 16 • Reflow the Adapter to PCB
CQFP to FBGA Adapter Sockets
10
Step 4
Place the Socket Interposer into the Adapter.
Step 5
Place the FBGA Package into the Adapter.
Figure 17 • Place the Socket Interposer into Adapter Assembly
Figure 18 • Place FBGA Package into Adapter Assembly
CQ352 to FG484 23x23 Adapter Socket Outline Drawing
11
Step 6
Place and tighten the socket lid on the socket housing with the remaining eight screws. A torque limit
screw driver is not required.
CQ352 to FG484 23x23 Adapter Socket Outline Drawing
Figure 19 • Place and Tighten Socket Lid Using Eight Screws and Optional Alignment Pins
Figure 20 • CQ352 to FG484 (23x23) Adapter Socket Outline Drawing (unit: mm)
FG4842
3x23
AX250
FG484 23x23
AX250
2.03
0.15
3.03
48
70
50.5 0.18
43.5
CQ352 to FG484 23x23 Adapter
Before Trim and Form
34
CQ352 to FG484 23x23 Adapter
After Trim and Form and Assembly
54.05 Square
by Fancort Inc
trim & form tool
0.25 by Fancort Inc
trim & f orm tool
14.03
5
CQFP to FBGA Adapter Sockets
12
CQ352 to FG896 Adapter Socket Outline Drawing
Figure 21 • CQ352 to FG896 Adapter Socket Outline Drawing (unit: mm)
2.03
0.15
3.03
48
73.98
70
50.5 0.18
43.5
CQ352 to FG896 Adapter
Before Trim and Form
42
CQ352 to FG896 Adapter
After Trim and Form and Assembly
54.05 Square
by Fancort Inc
trim & form tool
0.25 by Fancort Inc
trim & f orm tool
14.03
5
CQ256 to FG896 Adapter Socket Outline Drawing
13
CQ256 to FG896 Adapter Socket Outline Drawing
CQ352 to FG896 Adapter Socket Alignment Pins
There are two optional alignment pins with the CQ352 to FG896 adapter for aligning the socket housing
to the adapter. The same pins can be used to align the assembled adapter socket to the PCB. Alignment
holes on the PCB are optional. Customers must decide whether or not to have alignment holes on a
board.
Figure 22 • CQ256 to FG896 Adapter Socket Outline Drawing (unit: mm)
CQ256 to FG896 Adapter Socket
After Trim and Form and Assembly
CQ256 to FG896 Adapter Before Trim and Form
CQFP to FBGA Adapter Sockets
14
Reflow Profile
Since the reflow profile depends upon the size of the board and other components, you need to perform
additional fine tuning from the general profile shown in Figure 23.
Interposer Insertion Limitations
The prototyping adapter sockets are designed to enable the validation and functional testing of the user
FPGA designs on commercial devices before programming the design on the intended hermetic units.
The interposer is typically used for a limited number of insertions (no more than 25 insertions) per user
design/application. Additionally, the interposer is not intended for long term compression of the
commercial prototype unit. The maximum duration for which the interposer should remain compressed is
10 days per insertion. The prototyping adapter sockets can only withstand the temperature range of
–25ºC to +125ºC. In the event that the socket is used in ways that exceed the intended use model
(examples are temperatures exceeding 125ºC, high current, long mating duration exceeding 10 days, or
a combination of all), there is a possibility of interposer damage or dislodging pins from the interposer, as
shown in Figure 24 on page 15.
Figure 23 • Sample Temperature Profile for I/R or Convection Reflow
250
200
150
100
50
Temperature (°C)
50 100 150 200 250 3000
Time (seconds)
1°C to 3°C
per second
1°C to 3°C
per second
1°C to 4°C
per second
Keep temperature above
183°C (solder melting point)
for at least 60 seconds.
180°C
120 seconds
minimum
125°C to 180°C
Maximum package body
temperature = 220°C (±5°C) 220°C 30 seconds maximum
Note: This temperature profile guideline is for reference only
High Frequency Signals
15
Possible solutions for interposers with dislodged pins are listed below:
For five or fewer dislodged pins, fix them by putting the dislodged pins back into the interposer using
tweezers.
Otherwise a damaged interposer should be replaced with a new interposer.
Lastly, when replacing a damaged interposer, note that the specific interposer for the prototyping adapter
socket must be used. The interposer for the CQ352 to FG484 socket is different from the interposer used
with the CQ352 to FG896 socket and also different from the interposer used with the CQ256 to FG896
socket.
High Frequency Signals
The adapter socket was built for functional prototyping only. It was not the intended to support at-speed
testing, especially for high frequency signals such as LVDS. There is no specific series or parallel
termination on the adapter board itself. To operate high frequency signals with the adapter socket, the
series and parallel termination should be placed close to the I/O pins. The only possible location is on the
main board, which is too distant from I/O pins and will also add significantly to the parasitic. If you need to
implement LVDS or higher frequency signals, you must build a standalone board.
Figure 24 • Pin Dislodged from Interposer
CQFP to FBGA Adapter Sockets
16
CQFP to FBGA Adapter Pin Mapping List
The CQFP to FBGA adapter is routed from the FBGA package to match the existing die pad available for
the CQFP device being prototyped. Table 2 includes information on where to download the pin mapping
lists.
Prototyped Product, Adapter, and PCB Design Matrix
Designing the PCB for a specific product requires an understanding of which adapter socket will work.
Each adapter socket is routed differently. The design is based on the Axcelerator device or its
RadTolerant equivalent derivative being prototyped and the commercial Axcelerator FG package used
for prototyping. Table 3 shows the combinations that will work.
Table 2 • CQFP to FBGA Adapter Pin Mapping List
Adapter Socket Ordering Part Number
Prototyped and
Prototype Device
Adapter Pin Mapping
List Document #
CQ352 to FG484
23x23
SK-AX250-CQ352RTFG484S For prototyping RTAX250S/L-CQ352 or
AX250-CQ352 using the AX250-FG484
package
Refer to the Prototyping
Solutions section of the
Microsemi SoC Products
Group website:
www.microsemi.com/soc/
techdocs/package/default
.aspx.
CQ352 to FG896 SK-AX1-AX2-KITTOP and
SK-AX1-CQ352-KITBTM
For prototyping RTAX1000S/L-CQ352
or AX1000-CQ352 using the
AX1000-FG896 package
CQ352 to FG896 SK-AX1-AX2-KITTOP and
SK-AX2-CQ352-KITBTM
For prototyping RTAX2000S/L-CQ352
or AX2000-CQ352 using the
AX2000-FG896 package
Table 3 • Prototyping Design Matrix
Prototyped Product Adapter Part Number Prototype Vehicle PCB Design
AX250-CQ352 SK-AX250-CQ352RTFG484S AX250-FG484 23x23 AX250-CQ352
AX1000-CQ352 SK-AX1-AX2-KITTOP and
SK-AX1-CQ352-KITBTM
AX1000-FG896 AX1000-CQ352
AX2000-CQ352 SK-AX1-AX2-KITTOP and
SK-AX2-CQ352-KITBTM
AX2000-FG896 AX2000-CQ352
RTAX250S-CQ352,
RTAX250SL-CQ352
SK-AX250-CQ352RTFG484S AX250-FG484 23x23 AX250-CQ352 1
Notes:
1. The PCB designer should consider the eight pin pairs of the phase-locked loop (PLL) analog power supply
(VCCPLA/VCOMPLA, VCCPLB/VCOMPLB, VCCPLC/VCOMPLC, VCCPLD/VCOMPLD, VCCPLE/VCOMPLE,
VCCPLF/VCOMPLF, VCCPLG/VCOMPLG, and VCCPLH/VCOMPLH). They should be treated as follows:
• VCCPLA/B/C/D/E/F/G/H —There are eight in each device. VCCPLA supports the PLL associated with global
resource HCLKA, and VCCPLB supports the PLL associated with global resource HCLKB. These PLL analog power
supply pins should be connected to 1.5 V whether or not the PLL is used. Refer to the Axcelerator Family FPGAs
and RTAX-S/SL and RTAX-DSP Radiation-Tolerant FPGAs datasheets for pin assignment information.
• VCOMPLA/B/C/D/E/F/G/H —These are compensation reference signals for the internal PLL. There are eight in
each device. VCOMPLA supports the PLL associated with global resource HCLKA, and VCOMPLE supports the
PLL associated with global resource HCLKE. The VCOMPLX pins should be left floating if the PLL is not being used.
Refer to the Axcelerator Family FPGAs and RTAX-S/SL and RTAX-DSP Radiation-Tolerant FPGAs datasheets for
pin assignment information.
2. Since the Axcelerator and RTAX-S/L devices are exactly pin-compatible except for the PLL, which RTAX-S/L does not
have, designing the PCB with VCCPL(X) pins connected to 1.5 V will not affect the function of the RTAX-S/L devices.
Pins for VCOMPL(X) can be designed with land patterns only. These 16 PLL pins are not connected internally inside the
RTAX-S packages.
Prototyped Product, Adapter, and PCB Design Matrix
17
RTAX1000S-CQ352,
RTAX1000SL-CQ352
SK-AX1-AX2-KITTOP and
SK-AX1-CQ352-KITBTM
AX1000-FG896 AX1000-CQ352
1
RTAX2000S-CQ352,
RTAX2000SL-CQ352
SK-AX1-AX2-KITTOP and
SK-AX2-CQ352-KITBTM
AX2000-FG896 AX2000-CQ352 1
RTAX250S-CQ352,
RTAX250SL-CQ352
SK-AX250-CQ352RTFG484S AX250-FG484 23x23 RTAX250S-CQ352,
RTAX250SL-CQ3521, 2
RTAX1000S-CQ352,
RTAX1000SL-CQ352
SK-AX1-AX2-KITTOP and
SK-AX1-CQ352-KITBTM
AX1000-FG896 RTAX1000S-CQ352,
RTAX1000SL-CQ3521, 2
RTAX2000S-CQ352,
RTAX2000SL-CQ352
SK-AX1-AX2-KITTOP and
SK-AX2-CQ352-KITBTM
AX2000-FG896 RTAX2000S-CQ352,
RTAX2000SL-CQ3521, 2
Table 3 • Prototyping Design Matrix (continued)
Prototyped Product Adapter Part Number Prototype Vehicle PCB Design
Notes:
1. The PCB designer should consider the eight pin pairs of the phase-locked loop (PLL) analog power supply
(VCCPLA/VCOMPLA, VCCPLB/VCOMPLB, VCCPLC/VCOMPLC, VCCPLD/VCOMPLD, VCCPLE/VCOMPLE,
VCCPLF/VCOMPLF, VCCPLG/VCOMPLG, and VCCPLH/VCOMPLH). They should be treated as follows:
• VCCPLA/B/C/D/E/F/G/H —There are eight in each device. VCCPLA supports the PLL associated with global
resource HCLKA, and VCCPLB supports the PLL associated with global resource HCLKB. These PLL analog power
supply pins should be connected to 1.5 V whether or not the PLL is used. Refer to the Axcelerator Family FPGAs
and RTAX-S/SL and RTAX-DSP Radiation-Tolerant FPGAs datasheets for pin assignment information.
• VCOMPLA/B/C/D/E/F/G/H —These are compensation reference signals for the internal PLL. There are eight in
each device. VCOMPLA supports the PLL associated with global resource HCLKA, and VCOMPLE supports the
PLL associated with global resource HCLKE. The VCOMPLX pins should be left floating if the PLL is not being used.
Refer to the Axcelerator Family FPGAs and RTAX-S/SL and RTAX-DSP Radiation-Tolerant FPGAs datasheets for
pin assignment information.
2. Since the Axcelerator and RTAX-S/L devices are exactly pin-compatible except for the PLL, which RTAX-S/L does not
have, designing the PCB with VCCPL(X) pins connected to 1.5 V will not affect the function of the RTAX-S/L devices.
Pins for VCOMPL(X) can be designed with land patterns only. These 16 PLL pins are not connected internally inside the
RTAX-S packages.
CQFP to FBGA Adapter Sockets
18
List of Changes
The following table lists critical changes that were made in the current version of the chapter.
Revision* Changes Page
Revision 4
(November 2011)
A note was added to the "Introduction" section, clarifying that the CQFP to FBGA
adapter sockets are intended for functional prototyping, not at-speed prototyping
(SAR 33471).
1
In Table 1, last row, the part number of the KITTOP was changed from
SH-AX2-CQ256-KITTOP to SK-AX2-CQ256-KITTOP (SAR 29920).
2
In Tabl e 1 , third row and third column, the description for CQ256 to FG896
prototyping adapter has been changed from "For prototyping RTAX2000S/L-CQ352
or AX2000-CQ256 using the AX2000-FG896 package" to "For prototyping
RTAX2000S/L-CQ256 or AX2000-CQ256 using the AX2000-FG896 package" (SAR
30009).
2
Figure 22 · CQ256 to FG896 Adapter Socket Outline Drawing (unit: mm) was
improved in resolution to make the dimensions legible (SAR 25336).
13
The "Interposer Insertion Limitations" section is new (SAR 32813). 14
The "High Frequency Signals" section is new (SAR 30885). 15
The part numbers in Table 2 · CQFP to FBGA Adapter Pin Mapping List and
Table 3 · Prototyping Design Matrix were inadvertently reverted to obsolete part
numbers in revision 4 of this document. This has been corrected and the correct,
current part numbers have been restored (SAR 29920).
16
Revision 3
(August 2008)
The CQ256 to FG896 adapter was added, including instructions, drawings,
photographs, and table entries throughout the document.
N/A
Revision 2 All tables were updated to include current part numbers for ordering. N/A
A note was added to "Step 1" to caution against soldering. 6
"Step 3" was expanded. 9
The Related Documents section was revised to add mechanical drawings and
update the URL for the pin mapping lists.
18
Note: *The revision number is located in the part number after the hyphen. The part number is displayed at the bottom
of the last page of the document. The digits following the slash indicate the month and year of publication.
55900015-5/11.12
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