Real-time optimization of bunch-by-bunch 3D information extraction software HOTCAP

Xing YANG; Yongbin LENG; Yimei ZHOU

doi:10.11889/j.0253-3219.2024.hjs.47.020102

Journals >NUCLEAR TECHNIQUES >Volume 47 >Issue 2 >Page 020102 > Article

NUCLEAR TECHNIQUES
Vol. 47, Issue 2, 020102 (2024)

Real-time optimization of bunch-by-bunch 3D information extraction software HOTCAP

Xing YANG^1、3, Yongbin LENG^2、*, and Yimei ZHOU⁴

Author Affiliations

¹Shanghai Institute of Applied Physics, Chinese Academy of Sciences, Shanghai 201800, China

²University of Science and Technology of China, Hefei 230026, China

³University of Chinese Academy of Sciences, Beijing 100049, China

⁴Shanghai Advanced Research Institute, Chinese Academy of Sciences, Shanghai 201204, China

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DOI: 10.11889/j.0253-3219.2024.hjs.47.020102 Cite this Article

Xing YANG, Yongbin LENG, Yimei ZHOU. Real-time optimization of bunch-by-bunch 3D information extraction software HOTCAP[J]. NUCLEAR TECHNIQUES, 2024, 47(2): 020102 Copy Citation Text

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Fig. 1. Structural diagram of HOTCAP measurement system structure (color online)

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Fig. 2. Algorithm structure of HOTCAP software package

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Fig. 3. Processing flowchart of HOTCAP software

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Fig. 4. Resolution of 3D position measurement (SSRF)(a) Longitudinal phase resolution, (b) Lateral x-axis position resolution, (c) Lateral y-axis position resolution

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Fig. 5. Resolution of 3D position measurement (HLS)(a) Longitudinal phase resolution, (b) Lateral x-axis position resolution, (c) Lateral y-axis position resolution

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Fig. 6. Difference between 3D position measurement before and after optimization(a) Longitudinal phase measurement results, (b) Difference in measurement results before and after longitudinal phase optimization, (c) Lateral x-axis position measurement results, (d) Difference in measurement results before and after optimization in lateral x-axis position

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Fig. 7. Difference of refilled charge phase measurement before and after optimization

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一级模块

Top module

二级模块

Secondary module

所需时间

Required time / s

UI模块

UI module

生成摘要图

Plot figure

<0.1

IO模块

IO module

读取数据

Data read

8.2~10.3

保存数据

Data write

1.3~2.1

计算模块

Calculation module

数据预处理

Preprocessing

<0.1

主频计算

RF frequency

2.1~3.2

重建响应函数

Response function

103~128

计算填充模式

Filling pattern

<1 s

储存电荷信息

Stored charge

2 731~2 884

补注电荷信息

Refilled charge

137~147

总时长

Total duration

2 981~3 172

Table 1. The time spent in processing SSRF data by the original software

一级模块

Top module

二级模块

Secondary module

所需时间

Required time / s

UI模块

UI module

生成交互结果

Plot figure

<0.1

IO模块

IO module

读取数据

Data read

8.2~9.3

保存数据

Data write

1.5~1.7

计算模块

Calculation

module

数据预处理

Preprosessing

<0.1

主频计算

RF frequency

2.1~2.5

重建响应函数

Response function

74~76

计算填充模式

Filling pattern

储存电荷信息

Stored charge

40~42

补注电荷信息

Refilled charge

56~58

总时长

Total duration

181~188

Table 2. The time spent in processing SSRF data by the optimized software

一级模块

Top module

二级模块

Secondary module

所需时间Required time / s

UI模块

UI module

生成交互结果

Plot figure

<0.1

IO模块

IO module

读取数据

Data read

1~2

保存数据

Data write

0.1~0.2

计算模块

Calculation

module

数据预处理

Preprosessing

<0.1

主频计算

RF frequency

2.1~2.5

重建响应函数

Response function

12~13

计算填充模式

Filling pattern

储存电荷信息

Stored charge

8~9

补注电荷信息

Refilled charge

1~2

总时长

Total duration

22~25

Table 3. The time spent in processing HLF data by the optimized software

Xing YANG, Yongbin LENG, Yimei ZHOU. Real-time optimization of bunch-by-bunch 3D information extraction software HOTCAP[J]. NUCLEAR TECHNIQUES, 2024, 47(2): 020102

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