Post on 28-May-2020
2
u Introduction
Current Hardware
New Hardware
Scalability
Measurement
Simulation
Multi Application Scenario
Upcoming Ethernet Interfaces
Agenda
3
Mode of operation GEN1 (VN5610)
Introduction
CAM DCU2 CAM DCU2
ETH2ETH1
CANoeCANoe
TAP (MAC/PHY)
ETH1 ETH2
4
Mode of operation GEN2 (VN5610, VN5610A, VN5640)
Introduction
CAM DCU2
CANoe
ETH1
DirectConnection
CAM
ETH1
CANoe
DCU2
TAP (MAC/PHY)
5
Mode of operation GEN3 (VN5610, VN5610A, VN5640, VN5430, VN5620, etc.)
Introduction
CAM DCU2
CANoe
CAM
CANoe
DCU2
Port 1 Port 2 Port 1
Port 2
Blue Box Blue Box
7
Example network topology – Setup 1
Introduction
CAM RDRICL HU
Switch
DCU2
Switch
DCU1
real
simulated
8
Example network topology – Setup 2
Introduction
CAM RDRICL HU
Switch
DCU2
Switch
DCU1
real
simulated
9
Introduction
u Current Hardware
New Hardware
Scalability
Measurement
Simulation
Multi Application Scenario
Upcoming Ethernet Interfaces
Agenda
10
Definitions
Current Hardware
Inte
rface
HP 3
HP 5
Tool
HP 1
HP 2
HP 6
HP 7
HP 8
HP 9
HP 1
0
HP 1
1
HP 1
2
HP 4
TAP Switch DC SwitchDC
Uplink
Hardware Port
SegmentEth
1
Eth
2
Eth
3
Eth
5
Eth
4
Application Channel
11
Configuration 1
Current Hardware
Inte
rface
HP 3
HP 5
HP 1
HP 2
HP 6
HP 7
HP 8
HP 9
HP 1
0
HP 1
1
HP 1
2
HP 4
Switch1
Eth
1
Switch2
Eth
2
HU CAM
CAN
oe
ETH1
DCU1 ICL
ETH2
DCU2 RDR
12
ETH3
Configuration 2
Current Hardware
Inte
rface
HP 3
HP 5
HP 1
HP 2
HP 6
HP 7
HP 8
HP 9
HP 1
0
HP 1
1
HP 1
2
HP 4
Switch
Eth
1
HU
CAN
oe
Switch
DCU2
DC
2
DC
1Eth
2
Eth
3
DCU1 ICL DCU2 CAM
ETH1 ETH2
RDR
13
Introduction
Current Hardware
u New Hardware
Scalability
Measurement
Simulation
Multi Application Scenario
Upcoming Ethernet Interfaces
Agenda
14
Definitions
New Hardware
Network YNetwork X
Inte
rface
PP 3
PP 5
Tool
PP 1
PP 2
PP 6
PP 7
PP 8
PP 9
PP 1
0
PP 1
1
PP 1
2
PP 4
TAP Switch DC SwitchDC
Uplink
Physical Port
Segment
VP 1
VP 2
VP 3
VP 5
VP 4
Virtual Port
Network
15
TAP vs. Direct Connection
New Hardware
Inte
rface
PP 3
PP 5
CAN
oe
PP 1
PP 2
PP 6
PP 7
PP 8
PP 9
PP 1
0
PP 1
1
PP 1
2
PP 4
Link Lin
k
virtual PortUplink
physical Port
Synergies:
u Connection between 2 Ports
u Link Transparency> Link Status
> Sleep/Wakeup
u Low Latency
VP 3
16
VecNet / Body
Switch
The Network Approach
New Hardware
Inte
rface
PP 3
PP 5
DCU1 HU
PP 1
PP 2
PP 6
PP 7
PP 8
PP 9
PP 1
0
PP 1
1
PP 1
2
PP 4
Link Switch Lin
k
SwitchLin
k
CANoe / PC1
VecNet /Body
Network
17
VecNet / ComfortVecNet / Body
Switch
The new Network Concept
New Hardware
Inte
rface
PP 3
PP 5
DCU1 HU
PP 1
PP 2
PP 6
PP 7
PP 8
PP 9
PP 1
0
PP 1
1
PP 1
2
PP 4
Link Switch Lin
k
SwitchLin
k
CANoe / PC1 CANoe / PC2
VecNet / ComfortVecNet / Body VecNet /Body
18
VecNet
Switch
HW
_CH
3
HW
_CH
4
HW
_CH
5
DCU
1SW
HU
Hardware Configuration
New Hardware
HW
_CH
1
HW
_CH
2
HW
_CH
6
HW
_CH
7
HW
_CH
8
HW
_CH
9
HW
_CH
10
HW
_CH
11
HW
_CH
12
DCU1 HU
u Connect physical devices and define physical layer
u Define network
u Define segments
u Connect physical ports to segments
u Name physical ports
Link Switch
Inte
rface
19
Configuration 1
New Hardware
VecNet
Inte
rface
Tool
HU
HU …
VecNet
DCU1 ICL DCU2 RDR
DCU
2
DCU
2-S
W
CAM
DCU
1-S
W
CAM
Switch1 Switch2
ICL
DCU
1
RD
R
CAM
20
Configuration 2
New Hardware
VecNet
Inte
rface
Tool
HU
HU
DCU
2-S
W1
…
VecNet
DCU1 ICL DCU2 RDR
Switch
DCU2
DCU
2-S
W2
Lin
k2
Llink
1CAM
RD
R
DCU
1-S
W
Switch
ICL
DCU
1
CAM
21
Introduction
Current Hardware
New Hardware
u Scalability
Measurement
Simulation
Multi Application Scenario
Upcoming Ethernet Interfaces
Agenda
22
Simulation
Scalability
VecNet
Inte
rface
Tool
HU
HU …
VecNet
DCU1 ICL RDR
DCU
2-S
W
CAM
DCU
1-S
W
CAM
VecNet
Tool
DCU2
Switch1
DCU
1
ICL
DCU
2
RD
R
Switch2
23
Simulation
Scalability
VecNet
Inte
rface
Tool
HU
HU …
VecNet
DCU1 ICL RDR
DCU
2-S
W
CAM
DCU
1-S
W
CAM
HIL
DCU2
VLAN-2-VP converter
DCU
1
ICL
DCU
2
RD
R
Switch1 Switch2
24
VecNet
Physical ports (cascade)
Scalability
VecNet
Inte
rface
Tool
HU
HU …
VecNet
DCU1 ICL DCU2 RDR
CAM
DCU
1-S
W
DCU
2-S
W
CAM
DCU
1
ICL
Switch
DCU
2
RD
R
Switch
25
Introduction
Current Hardware
New Hardware
Scalability
u Measurement
Simulation
Multi Application Scenario
Upcoming Ethernet Interfaces
Agenda
26
Example network topology – Setup 3
Measurement
CAM RDRICL HU
Switch
DCU2
Switch
DCU1
real
simulated
29
u Link closed
u Today: MAC Bypass
u Application is able to listen
u Application is allowed to send
u Low latency
Measurement
Link
CAM DCU2
CANoe
Link characteristics
30
u Link interrupted
u Ethernet frames are not transmittedautomatically. Application is responsible to do so
u Today: Bypass open
u Higher latency
Link characteristics
Measurement
Link
CAM DCU2
CANoe
31
Using ports for measurement
Measurement
VecNet
Inte
rface
Tool
Link
CAM
CAM
…
VecNet
DCU
2-S
W
Trace
Switch
DCU2DST=DCU2
1
DST=CAM
2
Time Port Src_MAC Dst_MAC Dir
32
Using ports for measurement
Measurement
VecNet
Inte
rface
Tool
Link
CAM
CAM
…
VecNet
DCU
2-S
W
Trace
Switch
DCU2DST=DCU2
1
DST=CAM
2
Time Port Src_MAC Dst_MAC Dir
1 CAM CAM_Addr. DCU2_Addr. Rx
CAM
2 CAM DCU2_Addr. CAM_Arrd. Tx
33
Using ports for measurement
Measurement
VecNet
Inte
rface
Tool
Link
CAM
CAM
…
VecNet
DCU
2-S
W
Trace
Switch
DCU2DST=DCU2
1
DST=CAM
2
CAM
DCU2-SWTime Port Src_MAC Dst_MAC Dir
1 CAM CAM_Addr. IDC_Addr. Rx
1+x DCU2-SW CAM_Addr. IDC_Addr. Tx
2 DCU2-SW IDC_Addr. CAM_Arrd. Rx
2+x CAM IDC_Addr. CAM_Arrd. Tx
35
Introduction
Current Hardware
New Hardware
Scalability
Measurement
u Simulation
Multi Application Scenario
Upcoming Ethernet Interfaces
Agenda
36
Example network topology – Setup 4
Simulation
CAM RDRICL HU
Switch
DCU2
Switch
DCU1
real
simulated
38
What do we see using port DCU1, ICL, HU?
Simulation
Inte
rface
ICL
HU
ICL HU
CAN
oe
TraceSimulation Setup
Time Port Src_MAC Dst_MAC Dir
HW
_CH
1
HW
_CH
2
HW
_CH
6
HW
_CH
7
HW
_CH
8
HW
_CH
9
HW
_CH
10
HW
_CH
11
HW
_CH
12
DCU1
DCU
1
HW
_CH
4
DST=HU
2
DST=HU
1
DST=DCU1
3
DCU1
Ports
ICL
HU
Time Port Src_MAC Dst_MAC Dir
1 DCU1 DCU1 HU Rx
1+x HU DCU1 HU Tx
2 ICL ICL HU Rx
2+x HU ICL HU Tx
3 HU HU DCU1 Rx
3+x DCU1 HU DCU1 Tx
Switch
1 u DCU1 sends to HU
2 u ICL sends to HU
3 u HU sends to DCU1
39
What do we see using port DCU1, ICL, HU?
Simulation
Inte
rface
ICL
HU
ICL HU
CAN
oe
TraceSimulation Setup
Time Port Src_MAC Dst_MAC Dir
1 DCU1 DCU1 HU Rx
1+x HU DCU1 HU Tx
2 ICL ICL HU Rx
2+x HU ICL HU Tx
3 HU HU DCU1 Rx
3+x DCU1 HU DCU1 Tx
HW
_CH
1
HW
_CH
2
HW
_CH
6
HW
_CH
7
HW
_CH
8
HW
_CH
9
HW
_CH
10
HW
_CH
11
HW
_CH
12
DCU1
DCU
1
HW
_CH
4
DST=HU
2
DST=HU
1
HUDST=DCU1
3
HU
Switch
DCU1
Ports
ICL
HU
1 u DCU1 sends to HU
2 u ICL sends to HU
3 u HU sends to DCU1
41
Introduction
Current Hardware
New Hardware
Scalability
Measurement
Simulation
u Multi Application Scenario
Upcoming Ethernet Interfaces
Agenda
42
CANape Analysis Scenario
Multi Application Scenario
Inte
rface
ICL
HU
ICL
CAN
oe
Simulation SetupH
W_CH
1
HW
_CH
2
HW
_CH
6
HW
_CH
7
HW
_CH
8
HW
_CH
9
HW
_CH
10
HW
_CH
11
HW
_CH
12
DCU1
HW
_CH
4
DCU1
Ports
ICL
HU
Switch
CAN
ape
DCU
1
Monitor
DCU1
43
CANape Diagnostic Scenario
Multi Application Scenario
Inte
rface
ICL
HU
ICL
CAN
oe
Simulation SetupH
W_CH
1
HW
_CH
2
HW
_CH
6
HW
_CH
7
HW
_CH
8
HW
_CH
9
HW
_CH
10
HW
_CH
11
HW
_CH
12
DCU1
DCU
1
HW
_CH
4
DCU1
Ports
ICL
HU
CAN
ape XCP Device 1
XCP
XCP
Switch
XCP Device 2
XCP
47
Introduction
Current Hardware
New Hardware
Scalability
Measurement
Simulation
Multi Application Scenario
u Upcoming Ethernet Interfaces
Agenda
48
VN5620 – Ethernet/CAN Interface
Upcoming Ethernet Interfaces
u Ports/Channels:
u 4 x 100 BASE-T1/ 1000BASE-T1
u 2 x CAN-FD
u 1 x digital IO
u Host connection
u USB 3.0
u Ethernet (100BASE-TX/1000BASE-T)
u Powering
u USB-C (3A)
u External Power
u Synchronization
u Vector HW-Sync line
u IEEE1588*
*supported with a later SW release
49
VN5430 – Ethernet Interface
Upcoming Ethernet Interfaces
u Ports Channels
u 6 x 100 BASE-T1/ 1000BASE-T1
u Host connection
u Ethernet (100BASE-TX/1000BASE-T)
u Powering
u External Power
u Synchronization
u Vector HW-Sync line
u IEEE1588*
*supported with a later SW release
52 © 2018. Vector Informatik GmbH. All rights reserved. Any distribution or copying is subject to prior written approval by Vector. V0.1 | 2018-01-25
Author:
Vector Germany
For more information about Vectorand our products please visit
www.vector.com