The following Philips LPC2k CAN examples in this directory
were provided by ESAcademy.
LPC2_CANAll_V110:
Receives all CAN messages in a receive queue.
LPC2_CANFull_V110:
Uses Full-CAN-like reception filtering.
LPC2_CANBlinky_V130:
Minimal example of MicroCANopen, uses Full-CAN-like
reception filtering and implements both Rx and Tx
Interrupt Service Routines.
The following Philips LPC2k CAN examples in this directory
were provided by ESAcademy.
LPC2_CANAll_V110:
Receives all CAN messages in a receive queue.
LPC2_CANFull_V110:
Uses Full-CAN-like reception filtering.
LPC2_CANBlinky_V130:
Minimal example of MicroCANopen, uses Full-CAN-like
reception filtering and implements both Rx and Tx
Interrupt Service Routines.
文具倉庫管理系統2.0(源碼)delphi+access
main in Main\main.pas {FrmMain},
Login in Login\Login.pas {FrmLogin},
Logo in Login\Logo.pas {FrmLogo},
Global in Share\Global.pas ,
BaseSetup in BaseSetup\BaseSetup.pas {FrmBaseSetup},
dm in Share\dm.pas {DM_Wjckgl: TDataModule},
About in Help\About.pas {FrmAbout},
InputGoods in Input\InputGoods.pas {FrmInputGoods},
In case you haven t realized it, building computer systems is hard. As the complexity of the system gets greater, the task of building the software gets exponentially harder. As in any profession, we can progress only by learning, both from our mistakes and from our successes. This book represents some of this learning written in a form that I hope will help you to learn these lessons quicker than I did, or to communicate to others more effectively than I did before I boiled these patterns down.
In today’s IT environment, Java is a leading technology in the world of enterprise
development. As management demands more from technology, complexity
in infrastructure seems to grow exponentially, leaving many unable to
keep up with the demands of such a fast-paced world. These complexities
can be seen in the over-evolving Java 2 Enterprise Edition (J2EE) specifications.
This unnecessary complexity drove us to discover ways of simplifying
development.
DSP音頻處理示例The benefits of real-time analysis provided by DSP/BIOS are often required in programs that
were engineered without it. When the program is not built from the ground up using the
DSP/BIOS kernel and real-time analysis features, the lack of familiarity prevents engineers
from reaping the benefits of this very powerful tool set, especially in the final stage of
development when real-time analysis is needed most. This application note provides an
example of the necessary steps required to utilize DSP/BIOS features in order to bring these
solutions to bear in an existing application.
