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SpaceSOM-8Mplus Datasheet and Pinout

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Revision as of 09:58, 28 June 2022 by Piotrzbysinski (talk | contribs) (Operating ranges)
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SpaceSOM-8Mplus Datasheet and Pinout


General description

SpaceSOM-8Mplus intro.jpg

The SpaceSOM-8Mplus family is a SODIMM-sized SoM based on the NXP quad core i.MX8M plus application processor which features an advanced implementation of NPU (ML+AI) coprocessor, a dual or four ARM Cortex-A53 cores (at speed up to 1.8GHz) and ARM Cortex-M7 core (at speed up to 800MHz) as well as a 2D (HD1080p60) and 3D Graphics Processing Unit (GPU) Open GL 3.01ES compatible and Video Processing Unit (VPU) with D1080p60 H.264 and HD1080p60 H.265 capabilities.

The SpaceSOM-8Mplus is a multimedia and video oriented, highly integrated SoM (System on Module) featuring high computation power and dual-band 2.4/5GHz, 802.11a/b/g/n/ac Wi-Fi and Bluetooth v5.1 connectivity. The option of integrated, fully certified Wi-Fi and Bluetooth module simplifies the carrier board design and is ideally suited for wireless application. The SpaceSOM-8Mplus provides a variety memory configuration including flexible range of LPDDR4, eMMC or SD memory card that meets our customers requirements.

The SoM supports connections to a variety of interfaces: two high-speed USB 2.0/3.0 on-the-go with PHY, dual Ethernet 1Gbit, audio, display with touch panel and MIPI-DSI/HDMI/LVDS interface and serial communication interfaces. In addition, the system supports industrial grade embedded applications.

SoMLabs also provides a complete hardware and software development board for the SoM in the form of a carrier board and optional TFT display and touch panel.


Applications

  • Machine vision equipment
  • Robotics
  • Human-machine Interfaces (HMI)
  • IP Cameras
  • Video Stream Servers
  • Home Appliances
  • Home Automation – Smart Home
  • IoT gateways
  • Residential gateways
  • Industrial embedded Linux computer
  • Fitness/outdoor equipment

Features

  • Powered by quad core NXP i.MX8M plus application processor
  • Quad ARM Cortex-A53 core at speed up to 1.8GHz
  • ARM Cortex-M7 core at speed up to 800MHz
  • Integrated Machine-Learning (ML) and Artificial Intelligence (AI) Neural Processing Unit (NPU)
  • Up to 4GB DRAM LPDDR4
  • Up to 32GB eMMC memory or uSD memory card
  • Optional Murata dual-band 2.4/5GHz, 802.11a/b/g/n/ac Wi-Fi and Bluetooth v5.1
  • Built-in PCIe 3.0 communication interface
  • Built-in dual USB 2.0/3.0 interface
  • Built-in HDMI/LVDS and MIPI-DSI display interface
  • Power-efficient and cost-optimized solution
  • Ideal for industrial IoT and embedded applications
  • Integrated security features

Pictures of SOM versions

Version Photo
eMMC
SpaceSOM-8Mplus-eMMC-top.jpg
SpaceSOM-8Mplus-eMMC-bottom.jpg
WiFi/BT module is available for all memory variants configurations.

Ordering info

SLSNNCpuType_Clock_RamSize_FlashSize_SF_TEMP
SLSProduct type
SLS - System on Module
NSOM Name
3 - High Performance SpaceSOM SODIMM260 module
NCPU Family
5 - i.MX 8M plus
CpuTypeCPU Type
X8MPQC - i.MX 8M plus Quad Core
ClockCPU Clock Speed
1600C - 1.6GHz (Industrial temperature range)
1800C - 1.8GHz (Commercial temperature range)
RamSizeLPDDR4 RAM Size
01GR - 1GB (1024MB)
02GR - 2GB (2048MB)
04GR - 4GB (4096MB)
FlashSizeeMMC Memory Size
04GE - 4GB eMMC
08GE - 8GB eMMC
16GE - 16GB eMMC
32GE - 32GB eMMC
SFSpecial Features
0SF - No Special Features
1WB - Built-in dual-band Wi-Fi and Bluetooth v5.1
TEMPOperating Temperature
C - Consumer: 0 to +70 C
E - Extended: -25 to +70 C
I - Industrial: -40 to +85 C

Block Diagram

SpaceSOM-8Mplus-blokowy.png

Operating ranges

Parameter Value Unit Comment
Power Supply
5.0
V
Connected to VDD 5V SODIMM pins
Max. input GPIO voltage
1.8/3.3
V
-
Environment temperature1
-40…+85
oC Industrial range w/o WiFi module
-30…+70
Industrial range with WiFi module
0…+70
Consumer range

Note:
1. Maximum MPU junction temperature is +105oC.
2. Junction temperature determines MPU lifetime. Details: NXP Application Note i.MX8MMINI Product Lifetime Usage, Rev. 0, June 2019 or newer.

Electrical parameters

T.B.A.

SoM pinout

Important notes
1. Detail pin configurations description you can find, edit and arrange in dedicated MEX file (with free "iMX PinTool" configurational tool).
2. JTAG-MOD (ball G2) is permanently connected to GND
3. BOOT-MODE0 – RECOVERY line 0 -> BOOT-MODE0=1
4. BOOT-MODE1...MODE3 are premanently connected to GND
5. SDIO2 interface is used to communication with 1ZM radio module
6. eMMC memory is connected to SDIO3 interface



SOM pin number

Default function

GPIO

Ball number FCPBGA548

Notes

1

GND

-

-


2

GND

-

-


3

JTAG-TMS

-

G14

3.3V power domain

4

UART4-TXD

GPIO5.29

AH5

3.3V power domain

5

JTAG-TCK

-

G18

3.3V power domain

6

UART4-RXD

GPIO5.28

AJ5

3.3V power domain

7

JTAG-TDO

-

F14

3.3V power domain

8

CAN1-TX

GPIO5.03

AE18

3.3V power domain

9

JTAG-TDI

-

G16

3.3V power domain

10

CAN1-RX

GPIO5.04

AD18

3.3V power domain

11

VDD-3V3

-

-

3.3V power supply output for external accesories, load max. 300mA

12

CAN2-TX

GPIO4.26

AH16

3.3V power domain

13

I2C2-SDA

GPIO5.17

AE8

3.3V power domain

14

CAN2-RX

GPIO4.27

AJ15

3.3V power domain

15

I2C2-SCL

GPIO5.16

AH6

3.3V power domain

16

GPIO5.05

-

AC18

3.3V power domain

17

GND

-

-


18

GPIO5.23

-

AJ3

3.3V power domain

19

SAI3-MCLK

GPIO5.02

AJ20

3.3V power domain

20

GPIO5.22

-

AD6

3.3V power domain

21

GND

-

-


22

NC

-

-


23

SAI3-TXD

GPIO5.01

AH18

3.3V power domain

24

NC

-

-


25

SAI3-TXC

GPIO5.00

AH19

3.3V power domain

26

UART3-RXD

GPIO5.26

AE6

3.3V power domain

27

SAI3-TXFS

GPIO4.31

AC16

3.3V power domain

28

UART3-TXD

GPIO5.27

AJ4

3.3V power domain

29

SAI3-RXD

GPIO4.30

AF18

3.3V power domain

30

UART2-RXD

GPIO5.24

AF6

3.3V power domain

31

SAI3-RXC

GPIO4.29

AJ18

3.3V power domain

32

UART2-TXD

GPIO5.25

AH4

3V3 power domain

33

SAI3-RXFS

GPIO4.28

AJ19

3.3V power domain

34

I2C3-SCL

GPIO5.18

AJ7

3.3V power domain

35

GND

-

-


36

I2C3-SDA

GPIO5.19

AJ6

3.3V power domain

37

DDC-SDA

GPIO3.27

AF22


38

GND

-

-


39

DDC-SCL

GPIO3.26

AC22

I2C5-SCL

40

SPI2-CS0

GPIO5.13

AJ22

3.3V power domain

41

HDMI-HPD

GPIO3.29

AE22


42

SPI2-SCLK

GPIO5.10

AH21

3.3V power domain

43

HDMI-EARC-AUX

-

AH23

Dedicated HDMI interface line

44

SPI2-MISO

GPIO5.12

AH20

3.3V power domain

45

HDMI-EARC_N

-

AH22

Dedicated HDMI interface line

46

SPI2-MOSI

GPIO5.11

AJ21

3.3V power domain

47

HDMI-EARC_P

-

AJ23

Dedicated HDMI interface line

48

SPI1-CS0

GPIO5.09

AE20

3.3V power domain

49

HDMI-CEC

GPIO3.28

AD22


50

SPI1-SCLK

GPIO5.06

AF20

3.3V power domain

51

GND

-

-


52

SPI1-MISO

GPIO5.08

AD20

3.3V power domain

53

HDMI-CK_N

-

AJ24

Dedicated HDMI interface line

54

SPI1-MOSI

GPIO5.07

AC20

3.3V power domain

55

HDMI-CK_P

-

AH24

Dedicated HDMI interface line

56

GND

-

-


57

GND

-

-


58

LVDS0-DATA3_P

-

C29

Dedicated LVDS interface line

59

HDMI-D0_N

-

AJ25

Dedicated HDMI interface line

60

LVDS0-DATA3_N

-

D28

Dedicated LVDS interface line

61

HDMI-D0_P

-

AH25

Dedicated HDMI interface line

62

GND

-

-


63

HDMI-D1_N

-

AJ26

Dedicated HDMI interface line

64

LVDS0-CLK_P

-

A28

Dedicated LVDS interface line

65

HDMI-D1_P

-

AH26

Dedicated HDMI interface line

66

LVDS0-CLK_N

-

B28

Dedicated LVDS interface line

67

HDMI-D2_N

-

AJ27

Dedicated HDMI interface line

68

GND

-

-


69

HDMI-D2_P

-

AH27

Dedicated HDMI interface line

70

LVDS0-DATA2_P

-

B29

Dedicated LVDS interface line

71

GND

-

-


72

LVDS0-DATA2_N

-

C28

Dedicated LVDS interface line

73

SD1-DQS

GPIO2.11

W26

1.8/3.3V IO voltage standard (controlled by SDIO-VSELECT)

74

LVDS0-DATA1_P

-

A27

Dedicated LVDS interface line

75

SD1-CD

GPIO2.10

W25

1.8/3.3V IO voltage standard (controlled by SDIO-VSELECT)

76

LVDS0-DATA1_N

-

B27

Dedicated LVDS interface line

77

SD1-DATA7

GPIO2.09

U25

1.8/3.3V IO voltage standard (controlled by SDIO-VSELECT)

78

LVDS0-DATA0_P

-

A26

Dedicated LVDS interface line

79

SD1-DATA6

GPIO2.08

AA28

1.8/3.3V IO voltage standard (controlled by SDIO-VSELECT)

80

LVDS0-DATA0_N

-

B26

Dedicated LVDS interface line

81

SD1-DATA5

GPIO2.07

AA29

1.8/3.3V IO voltage standard (controlled by SDIO-VSELECT)

82

GND

-

-


83

SD1-DATA4

GPIO2.06

U26

1.8/3.3V IO voltage standard (controlled by SDIO-VSELECT)

84

LVDS1-DATA3_P

-

C29

Dedicated LVDS interface line

85

SD1-DATA1

GPIO2.03

Y28

1.8/3.3V IO voltage standard (controlled by SDIO-VSELECT)

86

LVDS1-DATA3_N

-

D28

Dedicated LVDS interface line

87

SD1-DATA0

GPIO2.02

Y29

1.8/3.3V IO voltage standard (controlled by SDIO-VSELECT)

88

GND

-

-


89

GND

-

-


90

LVDS1-CLK_P

-

A28

Dedicated LVDS interface line

91

SD1-CLK

GPIO2.00

W28

1.8/3.3V IO voltage standard (controlled by SDIO-VSELECT)

92

LVDS1-CLK_N

-

B28

Dedicated LVDS interface line

93

SD1-CMD

GPIO2.01

W29

1.8/3.3V IO voltage standard (controlled by SDIO-VSELECT)

94

GND

-

-


95

SD1-DATA3

GPIO2.05

V28

1.8/3.3V IO voltage standard (controlled by SDIO-VSELECT)

96

LVDS1-DATA2_P

-

B29

Dedicated LVDS interface line

97

SD1-DATA2

GPIO2.04

V29

1.8/3.3V IO voltage standard (controlled by SDIO-VSELECT)

98

LVDS1-DATA2_N

-

C28

Dedicated LVDS interface line

99

SD1-NVCC

-

-

SD1 1.8/3.3V power supply output (controlled by SDIO-VSELECT), load max. 80 mA

100

LVDS1-DATA1_P

-

A27

Dedicated LVDS interface line

101

VDD-3V3

-

-

3.3V power supply output for external accesories, load max. 300mA

102

LVDS1-DATA1_N

-

B27

Dedicated LVDS interface line

103

USB2-VBUS-OC

GPIO1.15

B5

3.3V power domain

104

LVDS1-DATA0_P

-

A26

Dedicated LVDS interface line

105

USB2-VBUS


D12


106

LVDS1-DATA0_N

-

C26

Dedicated LVDS interface line

107

USB2-VBUS-EN

GPIO1.14

A4

3.3V power domain

108

GND

-

-


109

USB2-D_P

-

D14

Dedicated USB2.0 interface line

110

PCIe-CLK_P

-

D16

CLKp line of PCIe interface (serial 100nF is necessary)

111

USB2-D_N

-

E14

Dedicated USB2.0 interface line

112

PCIe-CLK_N

-

E16

CLKn line of PCIe interface (serial 100nF is necessary)

113

USB2-ID


E12

Dedicated USB2.0 interface line

114

GND

-

-


115

USB2-SS-RX_P

-

A12

Dedicated USB3.0 interface line

116

PCIe-TXN_P

-

A15

TXp line of PCIe interface (serial 100nF is necessary)

117

USB2-SS-RX_N

-

B12

Dedicated USB3.0 interface line

118

PCIe-TXN_N

-

B15

TXn line of PCIe interface (serial 100nF is necessary)

119

USB2-SS-TX_N

-

B13

Dedicated USB3.0 interface line

120

GND

-

-


121

USB2-SS-TX_P

-

A13

Dedicated USB3.0 interface line

122

PCIe-RXN_P

-

A14

TXn line of PCIe interface

123

GND

-

-


124

PCIe-RXN_N

-

B14

TXn line of PCIe interface

125

USB1-VBUS-OC

GPIO1.13

A6

3.3V power domain

126

GND

-

-


127

USB1-VBUS

-

A11

Dedicated USB2.0 interface line

128

GPIO1.08

GPIO1.08

A8

3.3V power domain

129

USB1-VBUS-EN

GPIO1.12

A5

3.3V power domain

130

GPIO1.09

GPIO1.09

B8

3.3V power domain

131

USB1-D_P

-

D10

Dedicated USB2.0 interface line

132

GPIO1.00

-

A7

3.3V power domain

133

USB1-D_N

-

E10

Dedicated USB2.0 interface line

134

GPIO1.10

-

B7

3.3V power domain

135

USB1-ID

-

B11

Dedicated USB2.0 interface line

136

GPIO1.01

-

E8

3.3V power domain

137

USB1-SS-RX_P

-

A9

Dedicated USB3.0 interface line

138

GPIO1.11

-

D8

3.3V power domain

139

USB1-SS-RX_N

-

B9

Dedicated USB3.0 interface line

140

GPIO1.07

-

F6

3.3V power domain

141

USB1-SS-TX_N

-

C10

Dedicated USB3.0 interface line

142

GPIO1.03

-

D6

3.3V power domain

143

USB1-SS-TX_P

-

A10

Dedicated USB3.0 interface line

144

GPIO1.04

-

E6

3.3V power domain

145

GND

-

-


146

GPIO1.05

-

B4

3.3V power domain

147

ENET2-INT

GPIO4.19

AJ13

1.8V power domain

148

GPIO1.06

-

A3

3.3V power domain

149

ENET2-RXC

GPIO4.11

AJ12

1.8V power domain

150

SYS-LED

GPIO4.27

AH15

3.3V power domain

151

ENET2-RX-CTL

GPIO4.10

AF12

1.8V power domain

152

RECOVERY

-

G10

Recovery input (BOOT-MODE0):

=0 during reset – start eMMC recovering

=1 or NC – normal operation

153

ENET2-RXD0

GPIO4.06

AD10

1.8V power domain

154

I2C4-SCL

GPIO5.20

AF8

3.3V power domain

155

ENET2-RXD1

GPIO4.07

AE10

1.8V power domain

156

I2C4-SDA

GPIO5.21

AD8

3.3V power domain

157

ENET2-RXD2

GPIO4.04

AH9

1.8V power domain

158

I2C1-SCL

GPIO5.14

AC8

3.3V power domain

159

ENET2-RXD3

GPIO4.05

AJ8

1.8V power domain

160

I2C1-SDA

GPIO5.15

AH7

3.3V power domain

161

GND

-

-


162

GND

-

-


163

ENET2-TXC

GPIO4.17

AH14

1.8V power domain

164

CSI2-DATA3_P

-

A21

MIPI-CSI video input channel

165

ENET2-TX-CTL

GPIO4.16

AH13

1.8V power domain

166

CSI2-DATA3_N

-

B21

MIPI-CSI video input channel

167

ENET2-TXD0

GPIO4.12

AJ11

1.8V power domain

168

CSI2-DATA2_P

-

A22

MIPI-CSI video input channel

169

ENET2-TXD1

GPIO4.13

AJ10

1.8V power domain

170

CSI2-DATA2_N

-

B22

MIPI-CSI video input channel

171

ENET2-TXD2

GPIO4.14

AH11

1.8V power domain

172

CSI2-DATA1_P

-

A24

MIPI-CSI video input channel

173

ENET2-TXD3

GPIO4.15

AD12

1.8V power domain

174

CSI2-DATA1_N

-

B24

MIPI-CSI video input channel

175

ENET2-MDIO

GPIO4.05

AJ8

1.8V power domain

176

CSI2-DATA0_P

-

A25

MIPI-CSI video input channel

177

ENET2-MDC

GPIO4.04

AH9

1.8V power domain

178

CSI2-DATA0_N

-

B25

MIPI-CSI video input channel

179

ENET2-RST

GPIO4.18

AC12

1.8V power domain

180

GND

-

-


181

ENET2-EV1-OUT

GPIO4.03

AF10

1.8V power domain

182

CSI2-CLK_P

-

A23

MIPI-CSI video input channel

183

ENET2-EV1-IN

GPIO4.02

AC10

1.8V power domain

184

CSI2-CLK_N

-

B23

MIPI-CSI video input channel

185

ENET2-EV0-OUT

GPIO4.01

AH8

1.8V power domain

186

GND

-

-


187

ENET2-EV0-IN

GPIO4.00

AJ9

1.8V power domain

188

CSI1-DATA3_N

-

E26

MIPI-CSI video input channel

189

VDD-1V8

-

-

1.8V voltage output for external accesories, load max. 400 mA

190

CSI1-DATA3_P

-

D26

MIPI-CSI video input channel

191

GND

-

-


192

CSI1-DATA2_N

-

E24

MIPI-CSI video input channel

193

ENET1-INT

GPIO4.20

AE12

1.8V power domain

194

CSI1-DATA2_P

-

D24

MIPI-CSI video input channel

195

ENET1-RXC

GPIO1.25

AE29

1.8V power domain

196

CSI1-DATA1_N

-

E20

MIPI-CSI video input channel

197

ENET1-RX-CTL

GPIO1.24

AE28

1.8V power domain

198

CSI1-DATA1_P

-

D20

MIPI-CSI video input channel

199

ENET1-RXD0

GPIO1.26

AG29

1.8V power domain

200

CSI1-DATA0_N

-

E18

MIPI-CSI video input channel

201

ENET1-RXD1

GPIO1.27

AG28

1.8V power domain

202

CSI1-DATA0_P

-

D18

MIPI-CSI video input channel

203

ENET1-RXD2

GPIO1.28

AF29

1.8V power domain

204

GND

-

-


205

ENET1-RXD3

GPIO1.29

AF28

1.8V power domain

206

CSI1-CLK_N

-

E22

MIPI-CSI video input channel

207

GND

-

-


208

CSI1-CLK_P

-

D22

MIPI-CSI video input channel

209

ENET1-TXC

GPIO1.23

AE24

1.8V power domain

210

GND

-

-


211

ENET1-TX-CTL

GPIO1.22

AF24

1.8V power domain

212

DSI-CLK_P

-

A18

DSI1 video output channel

213

ENET1-TXD0

GPIO1.25

AC25

1.8V power domain

214

DSI-CLK_N

-

B18

DSI1 video output channel

215

ENET1-TXD1

GPIO1.20

AE26

1.8V power domain

216

GND

-

-


217

ENET1-TXD2

GPIO1.19

AF26

1.8V power domain

218

DSI-DATA0_P

-

A16

DSI1 video output channel

219

ENET1-TXD3

GPIO1.18

AD24

1.8V power domain

220

DSI-DATA0_N

-

B16

DSI1 video output channel

221

ENET1-MDIO

GPIO1.17

AH29

1.8V power domain

222

DSI-DATA1_P

-

A17

DSI1 video output channel

223

ENET1-MDC

GPIO1.16

AH28

1.8V power domain

224

DSI-DATA1_N

-

B17

DSI1 video output channel

225

ENET1-RST


T28

1.8V power domain

226

DSI-DATA2_P

-

A19

DSI1 video output channel

227

GPIO3.24

-

AE14

1.8V power domain

228

DSI-DATA2_N

-

B19

DSI1 video output channel

229

GPIO3.23

-

AF16

1.8V power domain

230

DSI-DATA3_P

-

A20

DSI1 video output channel

231

GPIO3.22

-

AD16

1.8V power domain

232

DSI-DATA3_N

-

B20

DSI1 video output channel

233

NC

-

-


234

GND

-

-


235

NC

-

-


236

NC

-

-


237

NC

-

-


238

NC

-

-


239

GND

-

-


240

PWR-ON

-

G22

ONOFF MPU input

1.8V power domain

241

I2C6-SCL

GPIO3.19

AC14

I2C6 is used to communication with PMIC PCA9450CHN with internal 1V8 pull-ups.

Externally compatible with 3.3V logic standards.

242

SYS-RST

-

J29

Buffered, open-drain POR-B output

243

I2C6-SDA

GPIO3.20

AD14

I2C6 is used to communication with PMIC PCA9450CHN with internal 1V8 pull-ups.

Externally compatible with 3.3V logic standards.

244

RST-IN

-

-

PMIC_RST_B input (system reset generated by PMIC)

245

VDD5V

-

-

External 5V input

246

GND

-

-


247

VDD5V

-

-

External 5V input

248

GND

-

-


249

VDD5V

-

-

External 5V input

250

GND

-

-


251

VDD5V

-

-

External 5V input

252

GND

-

-


253

VDD5V

-

-

External 5V input

254

GND

-

-


255

VDD5V

-

-

External 5V input

256

GND

-

-


257

VDD5V

-

-

External 5V input

258

GND

-

-


259

VDD5V

-

-

External 5V input

260

GND

-

-


-

PMIC-INT

GPIO3.25

AF14

Interrupt line connected to IRQ_B PMIC PCA9450CHN

-

SDIO-VSELECT

GPIO3.21

AE16

Control line for SDIO1 power supply voltage (LDO5 in PMIC PCA9450CHN, SDIO-VSELECT)

-

GPIO1.02

-

B6

WDOG-B

-

BT-CTS

-

AJ14

1ZM Bluetooth module line (UART1)

-

BT-TXD

-

AH17

1ZM Bluetooth module line (UART1)

-

BT-RTS

-

AJ17

1ZM Bluetooth module line (UART1)

-

BT-RXD

-

AJ16

1ZM Bluetooth module line (UART1)

-

BT-H-WAKE

GPIO2.20

AC26

1ZM Bluetooth module line

-

NAND_D0

QSPI-D0

R25

Connection for optional QSPI NOR Flash

-

NAND_D1

QSPI-D1

L25

Connection for optional QSPI NOR Flash

-

NAND_D2

QSPI-D2

L24

Connection for optional QSPI NOR Flash

-

NAND_D3

QSPI-D3

N24

Connection for optional QSPI NOR Flash

-

NAND_ALE

QSPI-CLK

N25

Connection for optional QSPI NOR Flash

-

NAND_CE0_B

QSPI-CS

L26

Connection for optional QSPI NOR Flash

-

WLAN-H-WAKE

GPIO2.19

AD28

1ZM WiFi module line

-

WLAN-ENABLE

GPIO2.12

AD29

1ZM WiFi module line

Dimensions

SpaceSOM-8Mplus-dimensions.png
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