曙海培训
全国报名免费热线:4008699035 微信:shuhaipeixun
或15921673576/13918613812(微信同号) QQ:1299983702
首页 课程表 在线聊 报名 讲师 品牌 QQ聊 活动 就业
   班级规模及环境--热线:4008699035 手机:15921673576/13918613812( 微信同号)
       坚持小班授课,为保证培训效果,增加互动环节,每期人数限3到5人。
   上课时间和地点
上课地点:【上海】:同济大学(沪西)/新城金郡商务楼(11号线白银路站) 【深圳分部】:电影大厦(地铁一号线大剧院站)/深圳大学成教院 【北京分部】:北京中山/福鑫大楼 【南京分部】:金港大厦(和燕路) 【武汉分部】:佳源大厦(高新二路) 【成都分部】:领馆区1号(中和大道) 【沈阳分部】:沈阳理工大学/六宅臻品 【郑州分部】:郑州大学/锦华大厦 【石家庄分部】:河北科技大学/瑞景大厦 【广州分部】:广粮大厦 【西安分部】:协同大厦
近开课时间(周末班/连续班/晚班):即将开课,详情请咨询客服。(欢迎您垂询,视教育质量为生命!)
   实验设备
     ☆资深工程师授课
        
        ☆注重质量 ☆边讲边练

        ☆合格学员免费推荐工作
        ★实验设备请点击这儿查看★
   质量保障

        1、培训过程中,如有部分内容理解不透或消化不好,可免费在以后培训班中重听;
        2、课程完成后,授课老师留给学员手机和Email,保障培训效果,免费提供半年的技术支持。
        3、培训合格学员可享受免费推荐就业机会。

课程大纲
 

Solaris 10 Operating System Internals 培训
Solaris 10 Operating System Internals 培训
课程大纲:
1. Introducing the Solaris 10 Operating System
Purpose of the operating system and the concept of kernel layering
Diagram the segments that make up the process address space
The trap mechanism
Differentiate between hardware and software interrupts
New features in recent releases of the Solaris 10 OS
Start using tools such as mdb, kmdb, and DTrace to examine kernel data structures
Start using http://cvs.opensolaris.org/source/ to examine the source code
2. Multithread Architecture
Difference between symmetrical multiprocessing (SMP) and asymmetrical multiprocessing (ASMP)
Define an application and a kernel thread
Define a lightweight process (LWP)
Difference between a thread and an LWP
Structures that describe the state of a kernel thread, an LWP, and a process
How a mutex lock works
Define a condition variable
How a counting semaphore is implemented
How a multiple-reader, single-writer lock works
Advantages of multiple LWPs for a given process
3. Hardware Memory Management
How the MMU tables are used to perform virtual-to- physical address translation
Differences between the x86/x64 memory management unit (MMU) and the SFMMU
Types of cache implemented on Sun systems
Purpose of the hardware address translation (HAT) layer
4. Software Memory Management
Layers of the SunOS 5.x software virtual memory (VM) system and the role of each layer
Mapping structures that make up process address space
Locate the page structures and process address space structures in mdb or dtrace and identify the fields within the structures
How the memory mapping and memory control system calls can be used by an application programmer to effectively manage process memory needs
5. Paging and Swapping
Layered approach to page-fault handling
Conditions under which the page daemon runs
Functions of the page daemon
Conditions under which the swapper runs
6. The swapfs File System
Shortcomings of SunOS 4.x swap management
Changes that were made to the anonymous memory layer to accommodate the implementation of the swapfs file system
Two advantages obtained by adding the swapfs file system to the SunOS 5.x
7. Scheduling
At least two major barriers to real-time processing in the traditional UNIX architectures, such as System V Release 3 (SVR3), the 4.3 Berkeley Software Design version of UNIX (BSD), and SunOS 4.x software
Difference between a fully preemptible kernel and a kernel with preemption points
A routine used to place a thread on a dispatch queue
When a thread is placed at the head of a dispatch queue
How the sleep queues are ordered
Define a user-level preemption
Define a kernel-level preemption
Define deterministic dispatch latency
Define priority inversion
8. Process Lifetime
Differences among the system calls used to create a new process
The kernel routines used to implement process creation
Types of executables supported in the Solaris 10 OS
Routines used to implement executable and linking format (ELF) executables
Advantages of the ELF executable format
Actions taken by a process when it exits
The waitid(2) system call and how it is implemented
9. Signals
Types of signals that can be delivered to a process or thread
Difference between a trap signal and an interrupt signal
Signal management routines and their functions
What the signal facility is for and how a signal is delivered
10. File Systems
The vnode interface layer to a file system
Four fields in a directory entry
Advantages of the 4.3 BSD file system
Function of the superblock and cylinder group structures
Fields in the disk inode structure and how they are used
Routines involved in determining the global placement policies
Allocation routines using the flowcharts and describe how the fragments are located quickly
 
 


 


 






 


 


 



 






 



 
 



 


 













 

 

 

友情链接:Cadence培训 ICEPAK培训 EMC培训 电磁兼容培训 sas容培训 罗克韦尔PLC培训 欧姆龙PLC培训 PLC培训 三菱PLC培训 西门子PLC培训 dcs培训 横河dcs培训 艾默生培训 robot CAD培训 eplan培训 dcs培训 电路板设计培训 浙大dcs培训 PCB设计培训 adams培训 fluent培训系列课程 培训机构课程短期培训系列课程培训机构 长期课程列表实践课程高级课程学校培训机构周末班培训 南京 NS3培训 OpenGL培训 FPGA培训 PCIE培训 MTK培训 Cortex训 Arduino培训 单片机培训 EMC培训 信号完整性培训 电源设计培训 电机控制培训 LabVIEW培训 OPENCV培训 集成电路培训 UVM验证培训 VxWorks培训 CST培训 PLC培训 Python培训 ANSYS培训 VB语言培训 HFSS培训 SAS培训 Ansys培训 短期培训系列课程培训机构 长期课程列表实践课程高级课程学校培训机构周末班 曙海 教育 企业 培训课程 系列班 长期课程列表实践课程高级课程学校培训机构周末班 短期培训系列课程培训机构 曙海教育企业培训课程 系列班