Resource Utilization - 4.1 English

Soft Error Mitigation Controller Product Guide (PG036)

Document ID
PG036
Release Date
2023-11-01
Version
4.1 English

Resource utilization metrics for the SEM Controller are derived from post-synthesis reports and are for budgetary purposes only. Actual resource utilization might vary.

Table 2-9: Resource Utilization for Zynq 7000 Devices (1) (2)

Device

IP Core Configuration

LUTs

FFs

I/Os

Block RAMs

Zynq 7000
All Devices

Complete solution with no optional features

509

361

11

3 RAMB18

Zynq 7000
XC7Z007S

Complete solution with all optional features

877

673

56

3 RAMB18, 2 RAMB36

Zynq 7000
XC7Z012S

Complete solution with all optional features

912

674

56

3 RAMB18, 3 RAMB36

Zynq 7000
XC7Z014S

Complete solution with all optional features

912

674

56

3 RAMB18, 3 RAMB36

Zynq 7000
XC7Z010

Complete solution with all optional features

863

681

56

3 RAMB18, 2 RAMB36

Zynq 7000
XC7Z015

Complete solution with all optional features

834

682

58

3 RAMB18, 3 RAMB36

Zynq 7000
XC7Z020

Complete solution with all optional features

838

682

56

3 RAMB18, 3 RAMB36

Zynq 7000
XC7Z030

Complete solution with all optional features

887

683

56

3 RAMB18, 5 RAMB36

Zynq 7000
XC7Z035

Complete solution with all optional features

994

696

56

3 RAMB18, 10 RAMB36

Zynq 7000
XC7Z045

Complete solution with all optional features

994

696

56

3 RAMB18, 10 RAMB36

Zynq 7000
XC7Z100

Complete solution with all optional features

1,065

696

56

3 RAMB18, 13 RAMB36

Notes:

1. The complete solution is the SEM Controller and the example design, which are intended to be used together.

2. The Error Injection Interface is connected to I/Os; use of logic debug IP (VIO) increases LUTs/FFs but decreases I/Os.

Table 2-10: Resource Utilization for Kintex 7 Devices (1) (2)

Device

IP Core Configuration

LUTs

FFs

I/Os

Block RAMs

Kintex 7
All Devices

Complete solution with no optional features

511

361

11

3 RAMB18

Kintex 7
XC7K70T

Complete solution with all optional features

849

682

56

3 RAMB18, 3 RAMB36

Kintex 7
XC7K160T

Complete solution with all optional features

887

683

56

3 RAMB18, 5 RAMB36

Kintex 7
XC7K325T

Complete solution with all optional features

991

686

56

3 RAMB18, 9 RAMB36

Kintex 7
XC7K355T

Complete solution with all optional features

994

696

56

3 RAMB18, 10 RAMB36

Kintex 7
XC7K410T

Complete solution with all optional features

1,028

696

56

3 RAMB18, 11 RAMB36

Kintex 7

XC7K420T

Complete solution with all optional features

1,065

696

56

3 RAMB18, 13 RAMB36

Kintex 7
XC7K480T

Complete solution with all optional features

1,065

696

56

3 RAMB18, 13 RAMB36

Kintex 7 Low Voltage,

Kintex 7Q,

Kintex 7Q Low Voltage,

All Devices

Same as Kintex 7

Notes:

1. The complete solution is the SEM Controller and the example design, which are intended to be used together.

2. The Error Injection Interface is connected to I/Os; use of logic debug IP (VIO) increases LUTs/FFs but decreases I/Os.

Table 2-11: Resource Utilization for Virtex 7 Devices (Non-SSI) (1) (2)

Device

IP Core Configuration

LUTs

FFs

I/Os

Block RAMs

Virtex 7
All Devices

Complete solution with no optional features

510

361

11

3 RAMB18

Virtex 7
XC7VX330T

Complete solution with all optional features

996

696

56

3 RAMB18, 10 RAMB36

Virtex 7
XC7VX415T

Complete solution with all optional features

1,065

696

56

3 RAMB18, 12 RAMB36

Virtex 7
XC7VX485T

Complete solution with all optional features

1,101

697

56

3 RAMB18, 14 RAMB36

Virtex 7
XC7VX550T

Complete solution with all optional features

1,218

691

56

3 RAMB18, 20 RAMB36

Virtex 7
XC7V585T

Complete solution with all optional features

1,073

698

56

3 RAMB18, 15 RAMB36

Virtex 7
XC7VX690T

Complete solution with all optional features

1,218

691

56

3 RAMB18, 20 RAMB36

Virtex 7
XC7VX980T

Complete solution with all optional features

1,366

692

56

3 RAMB18, 26 RAMB36

Virtex 7Q
All Devices

Same as Virtex 7

Notes:

1. The complete solution is the SEM Controller and the example design, which are intended to be used together.

2. The Error Injection Interface is connected to I/Os; use of logic debug IP (VIO) increases LUTs/FFs but decreases I/Os.

Table 2-12: Resource Utilization for Virtex 7 Devices (SSI) (1) (2)

Device

IP Core Configuration

LUTs

FFs

I/Os

Block RAMs

Virtex 7
XC7VH580T

Complete solution with no

optional features

1,394

980

19

7 RAMB18

Virtex 7
XC7VH580T

Complete solution with all

optional features

2,410

1,692

64

7 RAMB18, 18 RAMB36

Virtex 7
XC7VH870T

Complete solution with no

optional features

1,853

1,289

27

10 RAMB18

Virtex 7
XC7VH870T

Complete solution with all

optional features

3,245

2,230

72

10 RAMB18, 27 RAMB36

Virtex 7
XC7VX1140T

Complete solution with no

optional features

2,245

1,598

35

13 RAMB18

Virtex 7
XC7VX1140T

Complete solution with all

optional features

4,032

2,768

80

13 RAMB18, 36 RAMB36

Virtex 7
XC7V2000T

Complete solution with no

optional features

2,256

1,598

35

13 RAMB18

Virtex 7
XC7V2000T

Complete solution with all

optional features

4,342

2,808

80

13 RAMB18, 48 RAMB36

Virtex 7Q,
All Devices

Same as Virtex 7

Notes:

1. The complete solution is the SEM Controller and the example design, which are intended to be used together.

2. The Error Injection Interface is connected to I/Os; use of logic debug IP (VIO) increases LUTs/FFs but decreases I/Os.

Table 2-13: Resource Utilization for Artix 7 Devices (1) (2)

Device

IP Core Configuration

LUTs

FFs

I/Os

Block RAMs

Artix 7
All Devices

Complete solution with no optional features

512

361

11

3 RAMB18

Artix 7 XC7A12T

Complete solution with all optional features

877

673

56

3 RAMB18, 2 RAMB36

Artix 7 XC7A15T

Complete solution with all optional features

800

681

56

3 RAMB18, 2 RAMB36

Artix 7 XC7A25T

Complete solution with all optional features

877

673

56

3 RAMB18, 2 RAMB36

Artix 7 XC7A35T

Complete solution with all optional features

802

681

56

3 RAMB18, 2 RAMB36

Artix 7 XC7A50T

Complete solution with all optional features

800

681

56

3 RAMB18, 2 RAMB36

Artix 7
XC7A75T

Complete solution with all optional features

837

682

56

3 RAMB18, 3 RAMB36

Artix 7

XC7A100T

Complete solution with all optional features

837

682

56

3 RAMB18, 3 RAMB36

Artix 7

XC7A200T

Complete solution with all optional features

919

681

56

3 RAMB18, 7 RAMB36

Artix 7 Low Voltage,

Artix 7A,

Artix 7Q,

All Devices

Same as Artix 7

Notes:

1. The complete solution is the SEM Controller and the example design, which are intended to be used together.

2. The Error Injection Interface is connected to I/Os; use of logic debug IP (VIO) increases LUTs/FFs but decreases I/Os.

Table 2-14: Resource Utilization for Spartan 7 Devices (1) (2)

Device

IP Core Configuration

LUTs

FFs

I/Os

Block RAMs

Spartan 7
All Devices

Complete solution with no optional features

498

406

11

3 RAMB18

Spartan 7 XC7S6

Complete solution with all optional features

842

673

56

3 RAMB18, 1 RAMB36

Spartan 7 XC7S15

Complete solution with all optional features

842

673

56

3 RAMB18, 1 RAMB36

Spartan 7 XC725

Complete solution with no optional features

877

673

56

3 RAMB18, 2 RAMB36

Spartan 7 XC7S50

Complete solution with all optional features

877

673

56

3 RAMB18, 2 RAMB36

Spartan 7 XC7S75

Complete solution with all optional features

912

674

56

3 RAMB18, 3 RAMB36

Spartan 7 XC7S100

Complete solution with all optional features

912

674

56

3 RAMB18, 3 RAMB36

Notes:

1. The complete solution is the SEM Controller and the example design, which are intended to be used together.

2. The Error Injection Interface is connected to I/Os; use of logic debug IP (VIO) increases LUTs/FFs but decreases I/Os.