10Gb/s 80km DWDM SFP+ Transceiver Hot Pluggable, Duplex LC, +3.3V, 100GHz ITU...Allen He
SHPP-10G-Dxx-80 is a very compact 10Gb/s DWDM optical transceiver module for serial optical communication
applications at 10Gb/s, inter-converting the 10Gb/s serial electrical data stream with the 10Gb/s optical signal. It complies
with SFF-8431, SFF-8432 and IEEE 802.3ae 10GBASE-ZR. It provides Digital diagnostics functions via a 2-wire serial
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DWDM EML transmitter and high-sensitivity PIN receiver provide superior performance for Ethernet applications up to link length of 80km on single mode fiber.
Features:
Supports 9.95 to 11.3Gb/s bit rates
Hot-Pluggable
Duplex LC connector
100GHz ITU Grid, C Band
DWDM EML transmitter, APD photo-detector
SMF links up to 80km
2-wire interface for management specifications compliant
with SFF 8472 digital diagnostic monitoring interface
Power Supply :+3.3V
Power consumption< 1.5W
Temperature Range: 0~ 70°C
RoHS compliant
10Gb/s 80km DWDM SFP+ Transceiver Hot Pluggable, Duplex LC, +3.3V, 100GHz ITU...Allen He
SHPP-10G-Dxx-80 is a very compact 10Gb/s DWDM optical transceiver module for serial optical communication
applications at 10Gb/s, inter-converting the 10Gb/s serial electrical data stream with the 10Gb/s optical signal. It complies
with SFF-8431, SFF-8432 and IEEE 802.3ae 10GBASE-ZR. It provides Digital diagnostics functions via a 2-wire serial
interface as specified in SFF-8472. It features hot plug, easy upgrading and low EMI emission. The high-performance
DWDM EML transmitter and high-sensitivity PIN receiver provide superior performance for Ethernet applications up to link length of 80km on single mode fiber.
Features:
Supports 9.95 to 11.3Gb/s bit rates
Hot-Pluggable
Duplex LC connector
100GHz ITU Grid, C Band
DWDM EML transmitter, APD photo-detector
SMF links up to 80km
2-wire interface for management specifications compliant
with SFF 8472 digital diagnostic monitoring interface
Power Supply :+3.3V
Power consumption< 1.5W
Temperature Range: 0~ 70°C
RoHS compliant
GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using Deplo...James Anderson
Effective Application Security in Software Delivery lifecycle using Deployment Firewall and DBOM
The modern software delivery process (or the CI/CD process) includes many tools, distributed teams, open-source code, and cloud platforms. Constant focus on speed to release software to market, along with the traditional slow and manual security checks has caused gaps in continuous security as an important piece in the software supply chain. Today organizations feel more susceptible to external and internal cyber threats due to the vast attack surface in their applications supply chain and the lack of end-to-end governance and risk management.
The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
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Bob Boule
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GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
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https://arxiv.org/abs/2306.08302
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https://www.microsoft.com/en-us/research/blog/graphrag-unlocking-llm-discovery-on-narrative-private-data/
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Topics covered:
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UI automation Sample
Desktop automation flow
Pradeep Chinnala, Senior Consultant Automation Developer @WonderBotz and UiPath MVP
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
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Send an interactive Slack channel message (using buttons)
Have the message received by managers and peers along with a test email for review
But there’s more:
In a second workflow supporting the same use case, you’ll see:
Your campaign sent to target colleagues for approval
If the “Approve” button is clicked, a Jira/Zendesk ticket is created for the marketing design team
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Akshay Agnihotri, Product Manager
Charlie Greenberg, Host
Builder.ai Founder Sachin Dev Duggal's Strategic Approach to Create an Innova...Ramesh Iyer
In today's fast-changing business world, Companies that adapt and embrace new ideas often need help to keep up with the competition. However, fostering a culture of innovation takes much work. It takes vision, leadership and willingness to take risks in the right proportion. Sachin Dev Duggal, co-founder of Builder.ai, has perfected the art of this balance, creating a company culture where creativity and growth are nurtured at each stage.
LF Energy Webinar: Electrical Grid Modelling and Simulation Through PowSyBl -...DanBrown980551
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- A fully editable and extendable library for grid component modelling;
- Visualization tools to display your network;
- Grid simulation tools, such as power flows, security analyses (with or without remedial actions) and sensitivity analyses;
The framework is mostly written in Java, with a Python binding so that Python developers can access PowSyBl functionalities as well.
What you will learn during the webinar:
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Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
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Orchestrator execution result
Defect reporting
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3. BO25K13610D
QSFP 40G 1270nm-1330nm 10KM
RoHS Compliant Optical Transceiver
- 3 -
1. Absolute Maximum Ratings
Parameter Symbol Min. Typ. Max. Unit
Storage Temperature Ts -40 85 ºC
Storage Ambient Humidity HA 5 95 %
2. Recommended Operating Conditions
Parameter Symbol Min. Typ. Max. Unit Note
Case Operating Temperature Tcase
0 70 BO25K13610D
-10 80 ºC BO25K13610DEX
-40 85 BO25K13610DIN
Ambient Humidity HA 5 70 %
Transmission Distance 10 KM
Coupled Fiber Single mode fiber 9/125µm SMF
3. Electrical Interface Characteristics
Parameter Symbol Min. Typ. Max. Unit Note
Power Supply Voltage Vcc 3.14 3.3 3.46 V
Signal Input Voltage Icc 250 mA
Transmitter
Input differential impedance Rin 100 Ω 1
Single ended data input swing Vin,pp 180 1000 mV
Transmit Disable Voltage VD Vcc-1.3 Vcc V
Transmit Enable Voltage VEN Vee Vee+0.8 V 2
Transmit Disable Assert Time 10 µs
Receiver
Differential data output swing Vout,pp 300 850 mV 3
Data output rise time tr 28 Ps 4
Data output fall time tf 28 Ps 4
LOS Fault VLOS
fault
Vcc-1.3 VccHOST V 5
LOS Normal VLOS
norm
Vee Vee+0.8 V
5
Power Supply Rejection PSR 100 mVpp 6
Notes:
1. Internally AC coupled.
2. Or open circuit.
3. Into 100Ω differential termination.
4. 20-80%
5. LOS is an open collector output. Should be pulled up with 4.7KΩ on the host board.
6. All transceiver specifications are compliant with a power supply sinusoidal modulation of 20 Hz to 1.5 MHz
up to specified value through the power supply filtering network shown on page 23 of the Small Form -
factor Pluggable (SFP) Transceiver Multi Source Agreement (MSA), September 14, 2000.
4. BO25K13610D
QSFP 40G 1270nm-1330nm 10KM
RoHS Compliant Optical Transceiver
- 4 -
4. Transmitter Specifications - Optical
Parameter Symbol Min. Typ. Max. Unit Note
Total Output Power POUT 8.3 dBm
Average Output Power per Lane POUTPL -7 2.3 dBm
Average launch Power off per lane POFF -30 dBm
Extinction Ratio ER 3.5 dB
Center Wavelength
λ0 1264.5 1271 1277.5
nm
VCSEL Laser
λ1 1284.5 1291 1297.5
λ2 1304.5 1311 1317.5
λ3 1324.5 1331 1337.5
Transmitter and Dispersion Peanlty TDP 2.3 dB
Spectral Width (-20dB) σ 1 nm
SMSR 30 dB
RIN RIN -128 dB/Hz
Transmitter Jitter (peak to peak) Compliant with IEEE 802.3ba
5. Receiver Specifications - Optical
Parameter Symbol Min. Typ. Max. Unit Note
Receiver Sensitivity per Lane PIN -11.5 dBM 1
Input Saturation Power (Overload) PSAT 3.3 dBm
Receiver Reflectance PR -26 dBm
Notes:
1. Measured with PRBS=2
31
-1 non-return-to-zero.
6. QSFP to Host Connector Pin Out
Pin Symbol Name / Description Note
1 GND Transmitter Ground (Common with Receiver Ground) 1
2 Tx2n Transmitter Inverted Data Input
3 Tx2p Transmitter Non-Inverted Data output
4 GND Transmitter Ground (Common with Receiver Ground) 1
5 Tx4n Transmitter Inverted Data Input
6 Tx4p Transmitter Non-Inverted Data output
7 GND Transmitter Ground (Common with Receiver Ground) 1
8 ModSelL Module Select
9 ResetL Module Reset
10 VccRx 3.3V Power Supply Receiver 2
11 SCL 2-Wire serial Interface Clock
12 SDA 2-Wire serial Interface Data
13 GND Transmitter Ground (Common with Receiver Ground)
14 Rx3p Receiver Non-Inverted Data Output
15 Rx3n Receiver Inverted Data Output
16 GND Transmitter Ground (Common with Receiver Ground) 1
17 Rx1p Receiver Non-Inverted Data Output
18 Rx1n Receiver Inverted Data Output
19 GND Transmitter Ground (Common with Receiver Ground) 1
20 GND Transmitter Ground (Common with Receiver Ground) 1
5. BO25K13610D
QSFP 40G 1270nm-1330nm 10KM
RoHS Compliant Optical Transceiver
- 5 -
21 Rx2n Receiver Inverted Data Output
22 Rx2p Receiver Non-Inverted Data Output
23 GND Transmitter Ground (Common with Receiver Ground) 1
24 Rx4n Receiver Inverted Data Output 1
25 Rx4p Receiver Non-Inverted Data Output
26 GND Transmitter Ground (Common with Receiver Ground) 1
27 ModPrsl Module Present
28 IntL Interrupt
29 VccTx 3.3V power supply transmitter 2
30 Vcc1 3.3V power supply 2
31 LPMode Low Power Mode
32 GND Transmitter Ground (Common with Receiver Ground) 1
33 Tx3p Transmitter Non-Inverted Data Input
34 Tx3n Transmitter Inverted Data Output
35 GND Transmitter Ground (Common with Receiver Ground) 1
36 Tx1p Transmitter Non-Inverted Data Input
37 Tx1n Transmitter Inverted Data Output
38 GND Transmitter Ground (Common with Receiver Ground) 1
Notes:
1. GND is the symbol for signal and supply (power) common for QSFP modules. All are common
within the QSFP module and all module voltages are referenced to this potential unless otherwise
noted. Connect these directly to the host board signal common ground plane.
2. VccRx, Vcc1 and VccTx are the receiving and transmission power suppliers and shall be applied
concurrently. Recommended host board power supply filtering is shown below. Vcc Rx, Vcc1 and Vcc
Tx may be internally connected within the QSFP transceiver module in any combination. The
connector pins are each rated for a maximum current of 500mA.
Pinout of Connector Block on Host Board
6. BO25K13610D
QSFP 40G 1270nm-1330nm 10KM
RoHS Compliant Optical Transceiver
- 6 -
7. EEPROM Information
The SFP MSA defines a 256-byte memory map in EEPROM describing the transceivers capabilities, standard
interfaces, manufacturer, and other information, which–h is accessible over a 2 wire serial interface at the 8-bit
address 1010000X (A0h).
Data
Address
Field
Size
(Bytes)
Name of Field Description
128 1 Identifier Formfactor
129 1 Ext. Identifier
130 1 Connector
131-138 8 Transceiver Transmittter Code
139 1 Encoding
140 1 BR, Nominal Transceiver Speed
141 1 Extended RateSelect
Compliance
Tags for Extended RateSelect compliance
142 1 Length (9μm) km Max. link length in KM
143 1 Length (9μm) 100m Max. link length in M
144 1 Length (50μm) 10m Max. link length in M
145 1 Length(62.5μm)10m Max. link length in M
146 1 Length (Copper) Max. link length in M
147 1 Device Tech Device technology
148-163 16 Vendor name Vendor name - OEM
164 1 Extended Transceiver Extended Transceiver Codes for InfiniBand
165-167 3 Vendor OUI
168-183 16 Vendor PN Product Number - depending on Part
184-185 2 Vendor rev Vendor revision
186-187 2 Wavelength Transceiver Wavelength
188-189 2 Wavelength tolerance Guaranteed range of laser wavelength (+/- value) from
Nominal wavelength (Wavelength Tol. = value/200 in nm)
190 1 Max Case Temp Maximum Case Temperature in Degrees C
191 1 CC_BASE Check code for Base ID Fields (addresses 128-190)
192-195 4 Options Rate Select, TX Disable, TX Fault, LOS
196-211 16 Vendor SN Part serial number
212-219 8 Vendor date code Year, Month, Day
220 1 Diagnostic type Diagnostics
221 1
Enhanced option
Indicates which optional enhanced features are
implemented in the transceiver.
222 1 Reserved Reserved
223 1 CC_EXT Check code for the Extended ID Fields (addresses 192-222)
224-255 32 Vendor Specific Vendor Specific EEPROM
7. BO25K13610D
QSFP 40G 1270nm-1330nm 10KM
RoHS Compliant Optical Transceiver
- 7 -
8. Digital Diagnostics / Digital Optical Monitoring
The transceiver provides serial ID memory contents and diagnostic information about the present
operating conditions by the 2-wire serial interface (SCL, SDA).
The diagnostic information with internal calibration or external calibration are all implemented,
including received power monitoring, transmitted power monitoring, bias current monitoring, supply
voltage monitoring and temperature monitoring.
9. Recommended Interface Circuit